{ "version": "https://jsonfeed.org/version/1", "title": "phys.org 最新", "description": "用中文浏览 phys.org 最新报道", "icon": "https://phys.buzzing.cc/icon.png", "_apple_touch_icon": "https://phys.buzzing.cc/apple-touch-icon.png", "_latest_build_time": "2026-03-18T10:41:22.672+08:00", "favicon": "https://phys.buzzing.cc/favicon.ico", "language": "zh-Hans", "_site_version": "default", "home_page_url": "https://phys.buzzing.cc/", "feed_url": "https://phys.buzzing.cc/feed.json", "_sources": [ { "name": "Phys", "url": "https://phys.org/" } ], "items": [ { "title": "靶向α疗法:一种化合物为统一的癌症治疗带来了希望", "summary": "Targeted alpha therapy: One compound holds promise for unified cancer care", "content_text": "Targeted alpha therapy: One compound holds promise for unified cancer care #materials #science\n原文地址: https://phys.org/news/2026-03-alpha-therapy-compound-cancer.html", "content_html": "
\"scx1.b-cdn.net
Targeted alpha therapy: One compound holds promise for unified cancer care (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692965186/", "url": "https://phys.org/news/2026-03-alpha-therapy-compound-cancer.html", "date_published": "2026-03-18T02:39:46.932Z", "date_modified": "2026-03-18T02:39:46.932Z", "_original_published": "2026-03-18T02:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Targeted alpha therapy: One compound holds promise for unified cancer care" }, "zh-Hans": { "title": "靶向α疗法:一种化合物为统一的癌症治疗带来了希望" }, "ja": { "title": "標的指向型アルファ線治療:がん治療の統合に向けた有望な化合物" }, "zh-Hant": { "title": "靶向α療法:一種化合物為統一的癌症治療帶來了希望" } }, "tags": [ "Materials", "Science" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ornl-goes-all-in-on-ta.jpg", "_tag_links": [ { "name": "Materials", "url": "https://i.buzzing.cc/phys/tags/materials/" }, { "name": "Science", "url": "https://i.buzzing.cc/phys/tags/science/" } ], "_lite_content_html": "10:30  Targeted alpha therapy: One compound holds promise for unified cancer care (phys.org)" }, { "title": "研究称,达拉斯-沃斯堡地区蕴藏着尚未开发的创新潜力", "summary": "Dallas-Fort Worth has untapped innovation potential, study says", "content_text": "Dallas-Fort Worth has untapped innovation potential, study says #economics #business\n原文地址: https://phys.org/news/2026-03-dallas-fort-worth-untapped-potential.html", "content_html": "
\"scx1.b-cdn.net
Dallas-Fort Worth has untapped innovation potential, study says (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692984417/", "url": "https://phys.org/news/2026-03-dallas-fort-worth-untapped-potential.html", "date_published": "2026-03-18T02:08:00.609Z", "date_modified": "2026-03-18T02:08:00.609Z", "_original_published": "2026-03-18T02:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Dallas-Fort Worth has untapped innovation potential, study says" }, "zh-Hans": { "title": "研究称,达拉斯-沃斯堡地区蕴藏着尚未开发的创新潜力" }, "ja": { "title": "調査によると、ダラス・フォートワース地域には未開拓のイノベーションの潜在力があるという" }, "zh-Hant": { "title": "研究稱,達拉斯-沃斯堡地區蘊藏著尚未開發的創新潛力" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/dallas-forth-worth.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "10:00  Dallas-Fort Worth has untapped innovation potential, study says (phys.org)" }, { "title": "一种新材料能够从空气中收集干净安全的饮用水", "summary": "New material can collect clean and safe drinking water from the air", "content_text": "New material can collect clean and safe drinking water from the air #polymers\n原文地址: https://phys.org/news/2026-03-material-safe-air.html", "content_html": "
\"scx1.b-cdn.net
New material can collect clean and safe drinking water from the air (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692956374/", "url": "https://phys.org/news/2026-03-material-safe-air.html", "date_published": "2026-03-18T01:35:58.740Z", "date_modified": "2026-03-18T01:35:58.740Z", "_original_published": "2026-03-18T01:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "New material can collect clean and safe drinking water from the air" }, "zh-Hans": { "title": "一种新材料能够从空气中收集干净安全的饮用水" }, "ja": { "title": "新しい素材が、空気中から清潔で安全な飲料水を採取できる" }, "zh-Hant": { "title": "一種新材料能夠從空氣中收集乾淨安全的飲用水" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-material-can-help.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "09:30  New material can collect clean and safe drinking water from the air (phys.org)" }, { "title": "研究揭示:隐蔽的海洋热浪正威胁着南海生态系统", "summary": "Research reveals hidden ocean heat waves threatening South China Sea ecosystems", "content_text": "Research reveals hidden ocean heat waves threatening South China Sea ecosystems #environment\n原文地址: https://phys.org/news/2026-03-reveals-hidden-ocean-threatening-south.html", "content_html": "
\"scx1.b-cdn.net
Research reveals hidden ocean heat waves threatening South China Sea ecosystems (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692985238/", "url": "https://phys.org/news/2026-03-reveals-hidden-ocean-threatening-south.html", "date_published": "2026-03-18T01:19:45.820Z", "date_modified": "2026-03-18T01:19:45.820Z", "_original_published": "2026-03-18T01:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Research reveals hidden ocean heat waves threatening South China Sea ecosystems" }, "zh-Hans": { "title": "研究揭示:隐蔽的海洋热浪正威胁着南海生态系统" }, "ja": { "title": "研究により、南シナ海の生態系を脅かす隠れた海洋熱波が明らかになった" }, "zh-Hant": { "title": "研究揭示:隱蔽的海洋熱浪正威脅著南海生態系統" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-study-reveals-hidd.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "09:10  Research reveals hidden ocean heat waves threatening South China Sea ecosystems (phys.org)" }, { "title": "研究人员正在探索利用光激活纳米材料消灭病菌的新方法", "summary": "Researchers explore new ways to neutralize germs using light-activated nanomaterials", "content_text": "Researchers explore new ways to neutralize germs using light-activated nanomaterials #bio #medicine\n原文地址: https://phys.org/news/2026-03-explore-ways-neutralize-germs-nanomaterials.html", "content_html": "
\"scx1.b-cdn.net
Researchers explore new ways to neutralize germs using light-activated nanomaterials (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692965241/", "url": "https://phys.org/news/2026-03-explore-ways-neutralize-germs-nanomaterials.html", "date_published": "2026-03-18T00:47:47.754Z", "date_modified": "2026-03-18T00:47:47.754Z", "_original_published": "2026-03-18T00:40:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Researchers explore new ways to neutralize germs using light-activated nanomaterials" }, "zh-Hans": { "title": "研究人员正在探索利用光激活纳米材料消灭病菌的新方法" }, "ja": { "title": "研究者らが、光で活性化されるナノ材料を用いて細菌を無害化する新たな方法を模索している" }, "zh-Hant": { "title": "研究人員正在探索利用光激活納米材料消滅病菌的新方法" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/lights-out-for-germs.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "08:40  Researchers explore new ways to neutralize germs using light-activated nanomaterials (phys.org)" }, { "title": "埃德瓦尔德·蒙克的画作《呐喊》在300年后可能会是什么样子", "summary": "How Edvard Munch''s painting ''The Scream'' might look in 300 years'' time", "content_text": "How Edvard Munch''s painting ''The Scream'' might look in 300 years'' time #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-edvard-munch-years.html", "content_html": "
\"scx1.b-cdn.net
How Edvard Munch''s painting ''The Scream'' might look in 300 years'' time (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692956392/", "url": "https://phys.org/news/2026-03-edvard-munch-years.html", "date_published": "2026-03-18T00:00:16.036Z", "date_modified": "2026-03-18T00:00:16.036Z", "_original_published": "2026-03-18T00:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "How Edvard Munch''s painting ''The Scream'' might look in 300 years'' time" }, "zh-Hans": { "title": "埃德瓦尔德·蒙克的画作《呐喊》在300年后可能会是什么样子" }, "ja": { "title": "エドヴァルド・ムンクの絵画『叫び』は、300年後にはどのような姿になっているだろうか" }, "zh-Hant": { "title": "埃德瓦爾德·蒙克的畫作《吶喊》在300年後可能會是什麼樣子" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-edvard-munchs-pain.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "08:00  How Edvard Munch''s painting ''The Scream'' might look in 300 years'' time (phys.org)" }, { "title": "天然纺织纤维在湖泊沉积物中可能存留一个多世纪", "summary": "Natural textile fibers may persist for more than a century in lake sediments", "content_text": "Natural textile fibers may persist for more than a century in lake sediments #environment\n原文地址: https://phys.org/news/2026-03-natural-textile-fibers-persist-century.html", "content_html": "
\"scx1.b-cdn.net
Natural textile fibers may persist for more than a century in lake sediments (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_18__news692985841/", "url": "https://phys.org/news/2026-03-natural-textile-fibers-persist-century.html", "date_published": "2026-03-18T00:00:16.032Z", "date_modified": "2026-03-18T00:00:16.032Z", "_original_published": "2026-03-17T23:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Natural textile fibers may persist for more than a century in lake sediments" }, "zh-Hans": { "title": "天然纺织纤维在湖泊沉积物中可能存留一个多世纪" }, "ja": { "title": "天然繊維は、湖底の堆積物の中で1世紀以上も残存し続けることがある" }, "zh-Hant": { "title": "天然紡織纖維在湖泊沉積物中可能存留一個多世紀" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/natural-textile-fibres.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "07:50  Natural textile fibers may persist for more than a century in lake sediments (phys.org)" }, { "title": "光敏材料为二氧化碳转化提供了新途径", "summary": "Light-activated material offers new approach to carbon dioxide conversion", "content_text": "Light-activated material offers new approach to carbon dioxide conversion #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-material-approach-carbon-dioxide-conversion.html", "content_html": "
\"scx1.b-cdn.net
Light-activated material offers new approach to carbon dioxide conversion (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692978401/", "url": "https://phys.org/news/2026-03-material-approach-carbon-dioxide-conversion.html", "date_published": "2026-03-17T23:44:05.852Z", "date_modified": "2026-03-17T23:44:05.852Z", "_original_published": "2026-03-17T23:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Light-activated material offers new approach to carbon dioxide conversion" }, "zh-Hans": { "title": "光敏材料为二氧化碳转化提供了新途径" }, "ja": { "title": "光反応性材料が二酸化炭素変換に新たなアプローチをもたらす" }, "zh-Hant": { "title": "光敏材料為二氧化碳轉化提供了新途徑" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/light-activated-materi.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "07:40  Light-activated material offers new approach to carbon dioxide conversion (phys.org)" }, { "title": "利用牛粪实现可持续的二氧化碳捕获", "summary": "Using cow dung for sustainable carbon dioxide capture", "content_text": "Using cow dung for sustainable carbon dioxide capture #environment\n原文地址: https://phys.org/news/2026-03-cow-dung-sustainable-carbon-dioxide.html", "content_html": "
\"scx1.b-cdn.net
Using cow dung for sustainable carbon dioxide capture (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692985061/", "url": "https://phys.org/news/2026-03-cow-dung-sustainable-carbon-dioxide.html", "date_published": "2026-03-17T23:44:05.849Z", "date_modified": "2026-03-17T23:44:05.849Z", "_original_published": "2026-03-17T23:30:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Using cow dung for sustainable carbon dioxide capture" }, "zh-Hans": { "title": "利用牛粪实现可持续的二氧化碳捕获" }, "ja": { "title": "持続可能な二酸化炭素回収のための牛糞の利用" }, "zh-Hant": { "title": "利用牛糞實現可持續的二氧化碳捕獲" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/towards-climate-change.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "07:30  Using cow dung for sustainable carbon dioxide capture (phys.org)" }, { "title": "日本红鲑数量减少与气候变化有关", "summary": "Decline in Japanese chum salmon linked to climate change", "content_text": "Decline in Japanese chum salmon linked to climate change #ecology\n原文地址: https://phys.org/news/2026-03-decline-japanese-chum-salmon-linked.html", "content_html": "
\"scx1.b-cdn.net
Decline in Japanese chum salmon linked to climate change (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692965308/", "url": "https://phys.org/news/2026-03-decline-japanese-chum-salmon-linked.html", "date_published": "2026-03-17T23:44:05.845Z", "date_modified": "2026-03-17T23:44:05.845Z", "_original_published": "2026-03-17T23:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Decline in Japanese chum salmon linked to climate change" }, "zh-Hans": { "title": "日本红鲑数量减少与气候变化有关" }, "ja": { "title": "日本のサケの個体数減少は気候変動と関連している" }, "zh-Hant": { "title": "日本紅鮭數量減少與氣候變化有關" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/decline-in-japanese-ch-2.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "07:30  Decline in Japanese chum salmon linked to climate change (phys.org)" }, { "title": "科学家利用光和纳米结构在室温下创造出一种新的物质状态", "summary": "Scientists create a new state of matter at room temperature using light and nanostructures", "content_text": "Scientists create a new state of matter at room temperature using light and nanostructures #nanophysics\n原文地址: https://phys.org/news/2026-03-scientists-state-room-temperature-nanostructures.html", "content_html": "
\"scx1.b-cdn.net
Scientists create a new state of matter at room temperature using light and nanostructures (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692977022/", "url": "https://phys.org/news/2026-03-scientists-state-room-temperature-nanostructures.html", "date_published": "2026-03-17T23:27:46.739Z", "date_modified": "2026-03-17T23:27:46.739Z", "_original_published": "2026-03-17T23:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists create a new state of matter at room temperature using light and nanostructures" }, "zh-Hans": { "title": "科学家利用光和纳米结构在室温下创造出一种新的物质状态" }, "ja": { "title": "科学者たちが、光とナノ構造を用いて室温で新たな物質の状態を作り出した" }, "zh-Hant": { "title": "科學家利用光和納米結構在室溫下創造出一種新的物質狀態" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scientists-create-a-ne-3.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "07:20  Scientists create a new state of matter at room temperature using light and nanostructures (phys.org)" }, { "title": "你桌上的仙人掌是一台进化加速器", "summary": "The cactus on your desk is an evolution speed machine", "content_text": "The cactus on your desk is an evolution speed machine #plants #animals\n原文地址: https://phys.org/news/2026-03-cactus-desk-evolution-machine.html", "content_html": "
\"scx1.b-cdn.net
The cactus on your desk is an evolution speed machine (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692959741/", "url": "https://phys.org/news/2026-03-cactus-desk-evolution-machine.html", "date_published": "2026-03-17T23:11:43.139Z", "date_modified": "2026-03-17T23:11:43.139Z", "_original_published": "2026-03-17T23:10:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "The cactus on your desk is an evolution speed machine" }, "zh-Hans": { "title": "你桌上的仙人掌是一台进化加速器" }, "ja": { "title": "机の上のサボテンは、進化を加速させるマシンです" }, "zh-Hant": { "title": "你桌上的仙人掌是一臺進化加速器" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cactus.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "07:10  The cactus on your desk is an evolution speed machine (phys.org)" }, { "title": "人工智能模型可预测化学物质对基因表达的影响,从而加速新药研发", "summary": "AI model predicts chemical effects on gene expression, speeding drug discovery", "content_text": "AI model predicts chemical effects on gene expression, speeding drug discovery #biochemistry\n原文地址: https://phys.org/news/2026-03-ai-chemical-effects-gene-drug.html", "content_html": "
\"scx1.b-cdn.net
AI model predicts chemical effects on gene expression, speeding drug discovery (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692984579/", "url": "https://phys.org/news/2026-03-ai-chemical-effects-gene-drug.html", "date_published": "2026-03-17T23:11:43.135Z", "date_modified": "2026-03-17T23:11:43.135Z", "_original_published": "2026-03-17T23:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI model predicts chemical effects on gene expression, speeding drug discovery" }, "zh-Hans": { "title": "人工智能模型可预测化学物质对基因表达的影响,从而加速新药研发" }, "ja": { "title": "AIモデルが化学物質の遺伝子発現への影響を予測し、創薬プロセスを加速させる" }, "zh-Hant": { "title": "人工智能模型可預測化學物質對基因表達的影響,從而加速新藥研發" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/faster-discovery-of-th.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "07:00  AI model predicts chemical effects on gene expression, speeding drug discovery (phys.org)" }, { "title": "为何必须将关于非药物干预依从性的模型与纵向数据相结合", "summary": "Why models and longitudinal data on adherence to non-pharmaceutical interventions must come together", "content_text": "Why models and longitudinal data on adherence to non-pharmaceutical interventions must come together #cell #microbiology\n原文地址: https://phys.org/news/2026-03-longitudinal-adherence-pharmaceutical-interventions.html", "content_html": "
\"scx1.b-cdn.net
Why models and longitudinal data on adherence to non-pharmaceutical interventions must come together (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692956404/", "url": "https://phys.org/news/2026-03-longitudinal-adherence-pharmaceutical-interventions.html", "date_published": "2026-03-17T22:55:57.852Z", "date_modified": "2026-03-17T22:55:57.852Z", "_original_published": "2026-03-17T22:50:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why models and longitudinal data on adherence to non-pharmaceutical interventions must come together" }, "zh-Hans": { "title": "为何必须将关于非药物干预依从性的模型与纵向数据相结合" }, "ja": { "title": "なぜ、非薬物療法の遵守状況に関するモデルと縦断的データを統合する必要があるのか" }, "zh-Hant": { "title": "為何必須將關於非藥物干預依從性的模型與縱向數據相結合" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/why-models-and-longitu.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "06:50  Why models and longitudinal data on adherence to non-pharmaceutical interventions must come together (phys.org)" }, { "title": "研究表明,筑巢鸟类有助于将棉花传播得更远,比风还要远", "summary": "Nest-building birds help disperse cotton further than wind, study suggests", "content_text": "Nest-building birds help disperse cotton further than wind, study suggests #plants #animals\n原文地址: https://phys.org/news/2026-03-birds-disperse-cotton.html", "content_html": "
\"scx1.b-cdn.net
Nest-building birds help disperse cotton further than wind, study suggests (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692984385/", "url": "https://phys.org/news/2026-03-birds-disperse-cotton.html", "date_published": "2026-03-17T22:55:57.848Z", "date_modified": "2026-03-17T22:55:57.848Z", "_original_published": "2026-03-17T22:40:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nest-building birds help disperse cotton further than wind, study suggests" }, "zh-Hans": { "title": "研究表明,筑巢鸟类有助于将棉花传播得更远,比风还要远" }, "ja": { "title": "研究によると、巣を作る鳥は風よりも遠くへ綿を運ぶ役割を果たしているという" }, "zh-Hant": { "title": "研究表明,築巢鳥類有助於將棉花傳播得更遠,比風還要遠" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nest-building-birds-he.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "06:40  Nest-building birds help disperse cotton further than wind, study suggests (phys.org)" }, { "title": "今天是喇叭裤,明天是迷你裙:数学揭示了时尚的20年周期", "summary": "Bell-bottoms today, miniskirts tomorrow: Math reveals fashion''s 20-year cycle", "content_text": "Bell-bottoms today, miniskirts tomorrow: Math reveals fashion''s 20-year cycle #mathematics\n原文地址: https://phys.org/news/2026-03-bell-bottoms-today-miniskirts-tomorrow.html", "content_html": "
\"scx1.b-cdn.net
Bell-bottoms today, miniskirts tomorrow: Math reveals fashion''s 20-year cycle (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692955991/", "url": "https://phys.org/news/2026-03-bell-bottoms-today-miniskirts-tomorrow.html", "date_published": "2026-03-17T22:39:54.438Z", "date_modified": "2026-03-17T22:39:54.438Z", "_original_published": "2026-03-17T22:30:09.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bell-bottoms today, miniskirts tomorrow: Math reveals fashion''s 20-year cycle" }, "zh-Hans": { "title": "今天是喇叭裤,明天是迷你裙:数学揭示了时尚的20年周期" }, "ja": { "title": "今日はベルボトム、明日はミニスカート:数学が明らかにしたファッションの20年周期" }, "zh-Hant": { "title": "今天是喇叭褲,明天是迷你裙:數學揭示了時尚的20年週期" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/bell-bottoms-today-min-1.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "06:30  Bell-bottoms today, miniskirts tomorrow: Math reveals fashion''s 20-year cycle (phys.org)" }, { "title": "超薄BiFeO₂突破了30纳米的极限,压电强度提高了四倍", "summary": "Ultrathin BiFeO₃ breaks the 30 nm limit, delivering fourfold stronger piezoelectricity", "content_text": "Ultrathin BiFeO₃ breaks the 30 nm limit, delivering fourfold stronger piezoelectricity #nanophysics\n原文地址: https://phys.org/news/2026-03-ultrathin-bifeo8323-nm-limit-fourfold.html", "content_html": "
\"scx1.b-cdn.net
Ultrathin BiFeO₃ breaks the 30 nm limit, delivering fourfold stronger piezoelectricity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692983801/", "url": "https://phys.org/news/2026-03-ultrathin-bifeo8323-nm-limit-fourfold.html", "date_published": "2026-03-17T22:39:54.434Z", "date_modified": "2026-03-17T22:39:54.434Z", "_original_published": "2026-03-17T22:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ultrathin BiFeO₃ breaks the 30 nm limit, delivering fourfold stronger piezoelectricity" }, "zh-Hans": { "title": "超薄BiFeO₂突破了30纳米的极限,压电强度提高了四倍" }, "ja": { "title": "極薄のBiFeO₃が30 nmの限界を突破し、4倍の圧電効果を発揮" }, "zh-Hant": { "title": "超薄BiFeO₂突破了30納米的極限,壓電強度提高了四倍" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-engineer-u.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "06:30  Ultrathin BiFeO₃ breaks the 30 nm limit, delivering fourfold stronger piezoelectricity (phys.org)" }, { "title": "有些加拿大人愿意食用昆虫食品,但需满足一定条件", "summary": "Some Canadians are willing to eat insect-based food, but conditions apply", "content_text": "Some Canadians are willing to eat insect-based food, but conditions apply #ecology\n原文地址: https://phys.org/news/2026-03-canadians-insect-based-food-conditions.html", "content_html": "
\"scx1.b-cdn.net
Some Canadians are willing to eat insect-based food, but conditions apply (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692976078/", "url": "https://phys.org/news/2026-03-canadians-insect-based-food-conditions.html", "date_published": "2026-03-17T22:23:48.107Z", "date_modified": "2026-03-17T22:23:48.107Z", "_original_published": "2026-03-17T22:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Some Canadians are willing to eat insect-based food, but conditions apply" }, "zh-Hans": { "title": "有些加拿大人愿意食用昆虫食品,但需满足一定条件" }, "ja": { "title": "昆虫を原料とした食品を食べることに抵抗がないカナダ人もいますが、条件があります" }, "zh-Hant": { "title": "有些加拿大人願意食用昆蟲食品,但需滿足一定條件" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/crickets.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "06:20  Some Canadians are willing to eat insect-based food, but conditions apply (phys.org)" }, { "title": "过去的大规模捕鲸活动威胁着弓头鲸的未来", "summary": "Past intensive whaling threatens the future of bowhead whales", "content_text": "Past intensive whaling threatens the future of bowhead whales #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-intensive-whaling-threatens-future-bowhead.html", "content_html": "
\"scx1.b-cdn.net
Past intensive whaling threatens the future of bowhead whales (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692972701/", "url": "https://phys.org/news/2026-03-intensive-whaling-threatens-future-bowhead.html", "date_published": "2026-03-17T22:23:48.104Z", "date_modified": "2026-03-17T22:23:48.104Z", "_original_published": "2026-03-17T22:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Past intensive whaling threatens the future of bowhead whales" }, "zh-Hans": { "title": "过去的大规模捕鲸活动威胁着弓头鲸的未来" }, "ja": { "title": "過去に行われた大規模な捕鯨が、ホッキョククジラの将来を脅かしている" }, "zh-Hant": { "title": "過去的大規模捕鯨活動威脅著弓頭鯨的未來" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/past-intensive-whaling.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "06:20  Past intensive whaling threatens the future of bowhead whales (phys.org)" }, { "title": "基因分析表明,印度-太平洋地区的许多海绵物种具有区域特异性", "summary": "Genetic analyses show that many sponge species in the Indo-Pacific are regionally unique", "content_text": "Genetic analyses show that many sponge species in the Indo-Pacific are regionally unique #ecology\n原文地址: https://phys.org/news/2026-03-genetic-analyses-sponge-species-indo.html", "content_html": "
\"scx1.b-cdn.net
Genetic analyses show that many sponge species in the Indo-Pacific are regionally unique (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692983141/", "url": "https://phys.org/news/2026-03-genetic-analyses-sponge-species-indo.html", "date_published": "2026-03-17T22:23:48.100Z", "date_modified": "2026-03-17T22:23:48.100Z", "_original_published": "2026-03-17T22:10:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Genetic analyses show that many sponge species in the Indo-Pacific are regionally unique" }, "zh-Hans": { "title": "基因分析表明,印度-太平洋地区的许多海绵物种具有区域特异性" }, "ja": { "title": "遺伝学的分析によると、インド・太平洋地域の多くの海綿類は、その地域に特有であることが示されている" }, "zh-Hant": { "title": "基因分析表明,印度-太平洋地區的許多海綿物種具有區域特異性" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sponges-in-the-indo-pa.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "06:10  Genetic analyses show that many sponge species in the Indo-Pacific are regionally unique (phys.org)" }, { "title": "统计数据能揭示全部真相吗?这简直易如反掌", "summary": "Statistics that tell the whole truth? It''s as easy as ABC", "content_text": "Statistics that tell the whole truth? It''s as easy as ABC #mathematics\n原文地址: https://phys.org/news/2026-03-statistics-truth-easy-abc.html", "content_html": "
\"scx1.b-cdn.net
Statistics that tell the whole truth? It''s as easy as ABC (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968954/", "url": "https://phys.org/news/2026-03-statistics-truth-easy-abc.html", "date_published": "2026-03-17T22:07:53.520Z", "date_modified": "2026-03-17T22:07:53.520Z", "_original_published": "2026-03-17T22:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Statistics that tell the whole truth? It''s as easy as ABC" }, "zh-Hans": { "title": "统计数据能揭示全部真相吗?这简直易如反掌" }, "ja": { "title": "真実をありのままに伝える統計? それは朝飯前です" }, "zh-Hant": { "title": "統計數據能揭示全部真相嗎?這簡直易如反掌" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/statistics-that-tell-t.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "06:00  Statistics that tell the whole truth? It''s as easy as ABC (phys.org)" }, { "title": "香烟头在环境中放置10年后会发生什么", "summary": "What happens to cigarette butts after 10 years in the environment", "content_text": "What happens to cigarette butts after 10 years in the environment #environment\n原文地址: https://phys.org/news/2026-03-cigarette-butts-years-environment.html", "content_html": "
\"scx1.b-cdn.net
What happens to cigarette butts after 10 years in the environment (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692956007/", "url": "https://phys.org/news/2026-03-cigarette-butts-years-environment.html", "date_published": "2026-03-17T22:07:53.516Z", "date_modified": "2026-03-17T22:07:53.516Z", "_original_published": "2026-03-17T22:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "What happens to cigarette butts after 10 years in the environment" }, "zh-Hans": { "title": "香烟头在环境中放置10年后会发生什么" }, "ja": { "title": "環境中に放置されたタバコの吸い殻は、10年後どうなるのか" }, "zh-Hant": { "title": "香菸頭在環境中放置10年後會發生什麼" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/what-happens-to-cigare.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "06:00  What happens to cigarette butts after 10 years in the environment (phys.org)" }, { "title": "尽管存在缺陷,纳米级3D金属部件的强度却出人意料地高", "summary": "Nano 3D metallic parts turn out to be surprisingly strong despite defects", "content_text": "Nano 3D metallic parts turn out to be surprisingly strong despite defects #nanomaterials\n原文地址: https://phys.org/news/2026-03-nano-3d-metallic-strong-defects.html", "content_html": "
\"scx1.b-cdn.net
Nano 3D metallic parts turn out to be surprisingly strong despite defects (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692982482/", "url": "https://phys.org/news/2026-03-nano-3d-metallic-strong-defects.html", "date_published": "2026-03-17T21:51:53.101Z", "date_modified": "2026-03-17T21:51:53.101Z", "_original_published": "2026-03-17T21:50:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nano 3D metallic parts turn out to be surprisingly strong despite defects" }, "zh-Hans": { "title": "尽管存在缺陷,纳米级3D金属部件的强度却出人意料地高" }, "ja": { "title": "ナノ3D金属部品は、欠陥があるにもかかわらず、驚くほど強度が高いことが判明した" }, "zh-Hant": { "title": "儘管存在缺陷,納米級3D金屬部件的強度卻出人意料地高" } }, "tags": [ "Nanomaterials" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/engineering-tiny-3d-me.jpg", "_tag_links": [ { "name": "Nanomaterials", "url": "https://i.buzzing.cc/phys/tags/nanomaterials/" } ], "_lite_content_html": "05:50  Nano 3D metallic parts turn out to be surprisingly strong despite defects (phys.org)" }, { "title": "概念验证型量子电池显示,随着体积增大,充电速度会更快", "summary": "Proof-of-concept quantum battery shows faster charging as it gets larger", "content_text": "Proof-of-concept quantum battery shows faster charging as it gets larger #optics #photonics\n原文地址: https://phys.org/news/2026-03-proof-concept-quantum-battery-faster.html", "content_html": "
\"scx1.b-cdn.net
Proof-of-concept quantum battery shows faster charging as it gets larger (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692986621/", "url": "https://phys.org/news/2026-03-proof-concept-quantum-battery-faster.html", "date_published": "2026-03-17T21:51:53.098Z", "date_modified": "2026-03-17T21:51:53.098Z", "_original_published": "2026-03-17T21:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Proof-of-concept quantum battery shows faster charging as it gets larger" }, "zh-Hans": { "title": "概念验证型量子电池显示,随着体积增大,充电速度会更快" }, "ja": { "title": "実証実験用の量子バッテリーは、サイズが大きくなるにつれて充電速度が向上することが示された" }, "zh-Hant": { "title": "概念驗證型量子電池顯示,隨著體積增大,充電速度會更快" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/australian-scientists-2.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "05:50  Proof-of-concept quantum battery shows faster charging as it gets larger (phys.org)" }, { "title": "从尘埃到行星:抛物线飞行揭示了充满波折的演化历程", "summary": "From dust to planets: Parabolic flight reveal a turbulent path", "content_text": "From dust to planets: Parabolic flight reveal a turbulent path #planetary #sciences\n原文地址: https://phys.org/news/2026-03-planets-parabolic-flight-reveal-turbulent.html", "content_html": "
\"scx1.b-cdn.net
From dust to planets: Parabolic flight reveal a turbulent path (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692972401/", "url": "https://phys.org/news/2026-03-planets-parabolic-flight-reveal-turbulent.html", "date_published": "2026-03-17T21:51:53.094Z", "date_modified": "2026-03-17T21:51:53.094Z", "_original_published": "2026-03-17T21:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "From dust to planets: Parabolic flight reveal a turbulent path" }, "zh-Hans": { "title": "从尘埃到行星:抛物线飞行揭示了充满波折的演化历程" }, "ja": { "title": "塵から惑星へ:放物線飛行が明らかにした紆余曲折の道のり" }, "zh-Hant": { "title": "從塵埃到行星:拋物線飛行揭示了充滿波折的演化歷程" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/from-dust-to-planets-p.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "05:40  From dust to planets: Parabolic flight reveal a turbulent path (phys.org)" }, { "title": "研究发现,防晒霜在接触光线时会产生持久的自由基", "summary": "Sunscreen produces persistent free radicals when exposed to light, study finds", "content_text": "Sunscreen produces persistent free radicals when exposed to light, study finds #environment\n原文地址: https://phys.org/news/2026-03-sunscreen-persistent-free-radicals-exposed.html", "content_html": "
\"scx1.b-cdn.net
Sunscreen produces persistent free radicals when exposed to light, study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692987101/", "url": "https://phys.org/news/2026-03-sunscreen-persistent-free-radicals-exposed.html", "date_published": "2026-03-17T21:36:03.127Z", "date_modified": "2026-03-17T21:36:03.127Z", "_original_published": "2026-03-17T21:30:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sunscreen produces persistent free radicals when exposed to light, study finds" }, "zh-Hans": { "title": "研究发现,防晒霜在接触光线时会产生持久的自由基" }, "ja": { "title": "研究によると、日焼け止めは光にさらされると持続性のある活性酸素を生成することが分かった" }, "zh-Hant": { "title": "研究發現,防曬霜在接觸光線時會產生持久的自由基" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sunscreen-produces-per.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "05:30  Sunscreen produces persistent free radicals when exposed to light, study finds (phys.org)" }, { "title": "人类如何统治地球:文化进化的作用", "summary": "How humans took over the planet: The role of cultural evolution", "content_text": "How humans took over the planet: The role of cultural evolution #other\n原文地址: https://phys.org/news/2026-03-humans-planet-role-cultural-evolution.html", "content_html": "
\"scx1.b-cdn.net
How humans took over the planet: The role of cultural evolution (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692981821/", "url": "https://phys.org/news/2026-03-humans-planet-role-cultural-evolution.html", "date_published": "2026-03-17T21:36:03.124Z", "date_modified": "2026-03-17T21:36:03.124Z", "_original_published": "2026-03-17T21:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "How humans took over the planet: The role of cultural evolution" }, "zh-Hans": { "title": "人类如何统治地球:文化进化的作用" }, "ja": { "title": "人類が地球を支配するに至った経緯:文化進化の役割" }, "zh-Hant": { "title": "人類如何統治地球:文化進化的作用" } }, "tags": [ "Other" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2022/crowd.jpg", "_tag_links": [ { "name": "Other", "url": "https://i.buzzing.cc/phys/tags/other/" } ], "_lite_content_html": "05:30  How humans took over the planet: The role of cultural evolution (phys.org)" }, { "title": "分析显示,美国大学的自主权远落后于同类院校", "summary": "The autonomy of universities in the U.S. falls far behind peer group, analysis finds", "content_text": "The autonomy of universities in the U.S. falls far behind peer group, analysis finds #education\n原文地址: https://phys.org/news/2026-03-autonomy-universities-falls-peer-group.html", "content_html": "
\"scx1.b-cdn.net
The autonomy of universities in the U.S. falls far behind peer group, analysis finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692985722/", "url": "https://phys.org/news/2026-03-autonomy-universities-falls-peer-group.html", "date_published": "2026-03-17T21:20:13.611Z", "date_modified": "2026-03-17T21:20:13.611Z", "_original_published": "2026-03-17T21:20:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "The autonomy of universities in the U.S. falls far behind peer group, analysis finds" }, "zh-Hans": { "title": "分析显示,美国大学的自主权远落后于同类院校" }, "ja": { "title": "分析によると、米国の大学の自治は同等のグループに比べて大きく遅れていることが分かった" }, "zh-Hant": { "title": "分析顯示,美國大學的自主權遠落後於同類院校" } }, "tags": [ "Education" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2021/harvard-university.jpg", "_tag_links": [ { "name": "Education", "url": "https://i.buzzing.cc/phys/tags/education/" } ], "_lite_content_html": "05:20  The autonomy of universities in the U.S. falls far behind peer group, analysis finds (phys.org)" }, { "title": "碳纳米管“黑漆”吸收太赫兹辐射,以减少6G干扰", "summary": "Carbon nanotube ''black paint'' absorbs terahertz radiation to cut 6G interference", "content_text": "Carbon nanotube ''black paint'' absorbs terahertz radiation to cut 6G interference #nanophysics\n原文地址: https://phys.org/news/2026-03-carbon-nanotube-black-absorbs-terahertz.html", "content_html": "
\"scx1.b-cdn.net
Carbon nanotube ''black paint'' absorbs terahertz radiation to cut 6G interference (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692972101/", "url": "https://phys.org/news/2026-03-carbon-nanotube-black-absorbs-terahertz.html", "date_published": "2026-03-17T21:20:13.608Z", "date_modified": "2026-03-17T21:20:13.608Z", "_original_published": "2026-03-17T21:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Carbon nanotube ''black paint'' absorbs terahertz radiation to cut 6G interference" }, "zh-Hans": { "title": "碳纳米管“黑漆”吸收太赫兹辐射,以减少6G干扰" }, "ja": { "title": "カーボンナノチューブ製の「黒色塗料」がテラヘルツ波を吸収し、6Gの干渉を低減" }, "zh-Hant": { "title": "碳納米管“黑漆”吸收太赫茲輻射,以減少6G干擾" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/paint-it-black-materia.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "05:20  Carbon nanotube ''black paint'' absorbs terahertz radiation to cut 6G interference (phys.org)" }, { "title": "发现可能有助于预防“长新冠”的细菌", "summary": "Bacterium that may protect against long COVID identified", "content_text": "Bacterium that may protect against long COVID identified #cell #microbiology\n原文地址: https://phys.org/news/2026-03-bacterium-covid.html", "content_html": "
\"scx1.b-cdn.net
Bacterium that may protect against long COVID identified (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692985601/", "url": "https://phys.org/news/2026-03-bacterium-covid.html", "date_published": "2026-03-17T21:20:13.604Z", "date_modified": "2026-03-17T21:20:13.604Z", "_original_published": "2026-03-17T21:10:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bacterium that may protect against long COVID identified" }, "zh-Hans": { "title": "发现可能有助于预防“长新冠”的细菌" }, "ja": { "title": "「ロング・コビッド」の予防に役立つ可能性のある細菌が特定された" }, "zh-Hant": { "title": "發現可能有助於預防“長新冠”的細菌" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/discovery-of-a-bacteri.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "05:10  Bacterium that may protect against long COVID identified (phys.org)" }, { "title": "石墨烯传感器在液体中保持稳定,灵敏度可提高20倍", "summary": "Graphene sensors stay stable in liquids, boosting sensitivity up to 20 times", "content_text": "Graphene sensors stay stable in liquids, boosting sensitivity up to 20 times #nanomaterials\n原文地址: https://phys.org/news/2026-03-graphene-sensors-stay-stable-liquids.html", "content_html": "
\"scx1.b-cdn.net
Graphene sensors stay stable in liquids, boosting sensitivity up to 20 times (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692981281/", "url": "https://phys.org/news/2026-03-graphene-sensors-stay-stable-liquids.html", "date_published": "2026-03-17T21:20:13.600Z", "date_modified": "2026-03-17T21:20:13.600Z", "_original_published": "2026-03-17T21:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Graphene sensors stay stable in liquids, boosting sensitivity up to 20 times" }, "zh-Hans": { "title": "石墨烯传感器在液体中保持稳定,灵敏度可提高20倍" }, "ja": { "title": "グラフェンセンサーは液体中でも安定性を保ち、感度を最大20倍まで高める" }, "zh-Hant": { "title": "石墨烯傳感器在液體中保持穩定,靈敏度可提高20倍" } }, "tags": [ "Nanomaterials" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/novel-sensing-technolo-1.jpg", "_tag_links": [ { "name": "Nanomaterials", "url": "https://i.buzzing.cc/phys/tags/nanomaterials/" } ], "_lite_content_html": "05:10  Graphene sensors stay stable in liquids, boosting sensitivity up to 20 times (phys.org)" }, { "title": "研究发现,弓箭约在1400年前传入北美西部", "summary": "Bow and arrow arrived about 1,400 years ago across western North America, study finds", "content_text": "Bow and arrow arrived about 1,400 years ago across western North America, study finds #archaeology\n原文地址: https://phys.org/news/2026-03-arrow-years-western-north-america.html", "content_html": "
\"scx1.b-cdn.net
Bow and arrow arrived about 1,400 years ago across western North America, study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692970781/", "url": "https://phys.org/news/2026-03-arrow-years-western-north-america.html", "date_published": "2026-03-17T21:04:19.505Z", "date_modified": "2026-03-17T21:04:19.505Z", "_original_published": "2026-03-17T21:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bow and arrow arrived about 1,400 years ago across western North America, study finds" }, "zh-Hans": { "title": "研究发现,弓箭约在1400年前传入北美西部" }, "ja": { "title": "研究によると、弓矢は約1,400年前に北米西部に伝わったことが分かった" }, "zh-Hant": { "title": "研究發現,弓箭約在1400年前傳入北美西部" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-adoption-of-the-bo.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "05:00  Bow and arrow arrived about 1,400 years ago across western North America, study finds (phys.org)" }, { "title": "你的口红和饮用水里有什么?新检测发现隐藏的致突变物质", "summary": "What''s in your lipstick and water? New test flags hidden mutagens", "content_text": "What''s in your lipstick and water? New test flags hidden mutagens #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-lipstick-flags-hidden-mutagens.html", "content_html": "
\"scx1.b-cdn.net
What''s in your lipstick and water? New test flags hidden mutagens (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692981102/", "url": "https://phys.org/news/2026-03-lipstick-flags-hidden-mutagens.html", "date_published": "2026-03-17T21:04:19.502Z", "date_modified": "2026-03-17T21:04:19.502Z", "_original_published": "2026-03-17T20:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "What''s in your lipstick and water? New test flags hidden mutagens" }, "zh-Hans": { "title": "你的口红和饮用水里有什么?新检测发现隐藏的致突变物质" }, "ja": { "title": "あなたの口紅や水には何が入っているのでしょうか? 新たな検査で隠れた変異原が検出されました" }, "zh-Hant": { "title": "你的口紅和飲用水裡有什麼?新檢測發現隱藏的致突變物質" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/unmasking-mutagens-in.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "04:50  What''s in your lipstick and water? New test flags hidden mutagens (phys.org)" }, { "title": "“冲突创业者”:探究具有分裂性的政治言论与政客对名利的追求", "summary": "''Conflict entrepreneurs'': Examining divisive political rhetoric and the pursuit of celebrity by politicians", "content_text": "''Conflict entrepreneurs'': Examining divisive political rhetoric and the pursuit of celebrity by politicians #political #science\n原文地址: https://phys.org/news/2026-03-conflict-entrepreneurs-divisive-political-rhetoric.html", "content_html": "
\"scx1.b-cdn.net
''Conflict entrepreneurs'': Examining divisive political rhetoric and the pursuit of celebrity by politicians (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692970601/", "url": "https://phys.org/news/2026-03-conflict-entrepreneurs-divisive-political-rhetoric.html", "date_published": "2026-03-17T20:48:05.860Z", "date_modified": "2026-03-17T20:48:05.860Z", "_original_published": "2026-03-17T20:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "''Conflict entrepreneurs'': Examining divisive political rhetoric and the pursuit of celebrity by politicians" }, "zh-Hans": { "title": "“冲突创业者”:探究具有分裂性的政治言论与政客对名利的追求" }, "ja": { "title": "「紛争起業家」:分断を招く政治的レトリックと政治家による有名人化への追求を検証する" }, "zh-Hant": { "title": "“衝突創業者”:探究具有分裂性的政治言論與政客對名利的追求" } }, "tags": [ "Political", "science" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/divisive-political-rhe.jpg", "_tag_links": [ { "name": "Political", "url": "https://i.buzzing.cc/phys/tags/political/" }, { "name": "science", "url": "https://i.buzzing.cc/phys/tags/science/" } ], "_lite_content_html": "04:40  ''Conflict entrepreneurs'': Examining divisive political rhetoric and the pursuit of celebrity by politicians (phys.org)" }, { "title": "受量子技术启发的激光系统可实现亚毫米级精度的距离测量", "summary": "Quantum-inspired laser system delivers distance measurements with sub-millimeter accuracy", "content_text": "Quantum-inspired laser system delivers distance measurements with sub-millimeter accuracy #optics #photonics\n原文地址: https://phys.org/news/2026-03-quantum-laser-distance-millimeter-accuracy.html", "content_html": "
\"scx1.b-cdn.net
Quantum-inspired laser system delivers distance measurements with sub-millimeter accuracy (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692980861/", "url": "https://phys.org/news/2026-03-quantum-laser-distance-millimeter-accuracy.html", "date_published": "2026-03-17T20:48:05.856Z", "date_modified": "2026-03-17T20:48:05.856Z", "_original_published": "2026-03-17T20:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Quantum-inspired laser system delivers distance measurements with sub-millimeter accuracy" }, "zh-Hans": { "title": "受量子技术启发的激光系统可实现亚毫米级精度的距离测量" }, "ja": { "title": "量子技術に着想を得たレーザーシステムが、1ミリメートル未満の精度で距離測定を実現" }, "zh-Hant": { "title": "受量子技術啟發的激光系統可實現亞毫米級精度的距離測量" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/quantum-inspired-laser-1.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "04:30  Quantum-inspired laser system delivers distance measurements with sub-millimeter accuracy (phys.org)" }, { "title": "“岩石时钟”精确了地球早期复杂动物生命的时间测定", "summary": "''Rock clock'' refines time measurement of Earth''s early complex animal life", "content_text": "''Rock clock'' refines time measurement of Earth''s early complex animal life #earth #sciences\n原文地址: https://phys.org/news/2026-03-clock-refines-earth-early-complex.html", "content_html": "
\"scx1.b-cdn.net
''Rock clock'' refines time measurement of Earth''s early complex animal life (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692970421/", "url": "https://phys.org/news/2026-03-clock-refines-earth-early-complex.html", "date_published": "2026-03-17T20:48:05.852Z", "date_modified": "2026-03-17T20:48:05.852Z", "_original_published": "2026-03-17T20:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "''Rock clock'' refines time measurement of Earth''s early complex animal life" }, "zh-Hans": { "title": "“岩石时钟”精确了地球早期复杂动物生命的时间测定" }, "ja": { "title": "「ロッククロック」が、地球の初期の複合動物の年代測定を精度向上させた" }, "zh-Hant": { "title": "“岩石時鐘”精確了地球早期複雜動物生命的時間測定" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-refine-the.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "04:20  ''Rock clock'' refines time measurement of Earth''s early complex animal life (phys.org)" }, { "title": "气候政策可以减少富裕国家经济增长带来的排放", "summary": "Climate policies can reduce emissions from economic growth in wealthy nations", "content_text": "Climate policies can reduce emissions from economic growth in wealthy nations #environment\n原文地址: https://phys.org/news/2026-03-climate-policies-emissions-economic-growth.html", "content_html": "
\"scx1.b-cdn.net
Climate policies can reduce emissions from economic growth in wealthy nations (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692983081/", "url": "https://phys.org/news/2026-03-climate-policies-emissions-economic-growth.html", "date_published": "2026-03-17T20:48:05.848Z", "date_modified": "2026-03-17T20:48:05.848Z", "_original_published": "2026-03-17T20:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Climate policies can reduce emissions from economic growth in wealthy nations" }, "zh-Hans": { "title": "气候政策可以减少富裕国家经济增长带来的排放" }, "ja": { "title": "気候変動対策は、先進国の経済成長に伴う排出量を削減することができる" }, "zh-Hant": { "title": "氣候政策可以減少富裕國家經濟增長帶來的排放" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/co-emissions.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "04:20  Climate policies can reduce emissions from economic growth in wealthy nations (phys.org)" }, { "title": "人工智能模型提升了洪水预报的准确性,其精度高于现有方法", "summary": "AI model improves flood forecasting with higher accuracy than current methods", "content_text": "AI model improves flood forecasting with higher accuracy than current methods #earth #sciences\n原文地址: https://phys.org/news/2026-03-ai-higher-accuracy-current-methods.html", "content_html": "
\"scx1.b-cdn.net
AI model improves flood forecasting with higher accuracy than current methods (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692979181/", "url": "https://phys.org/news/2026-03-ai-higher-accuracy-current-methods.html", "date_published": "2026-03-17T20:15:50.956Z", "date_modified": "2026-03-17T20:15:50.956Z", "_original_published": "2026-03-17T20:10:08.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI model improves flood forecasting with higher accuracy than current methods" }, "zh-Hans": { "title": "人工智能模型提升了洪水预报的准确性,其精度高于现有方法" }, "ja": { "title": "AIモデルは、現行の手法よりも高い精度で洪水予測を改善する" }, "zh-Hant": { "title": "人工智能模型提升了洪水預報的準確性,其精度高於現有方法" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ai-model-could-revolut.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "04:10  AI model improves flood forecasting with higher accuracy than current methods (phys.org)" }, { "title": "寒冷的代价:经济学研究揭示作物冻害与家庭暴力之间的关联", "summary": "The cost of cold: Economics research links frozen crops to domestic violence", "content_text": "The cost of cold: Economics research links frozen crops to domestic violence #social #sciences\n原文地址: https://phys.org/news/2026-03-cold-economics-links-frozen-crops.html", "content_html": "
\"scx1.b-cdn.net
The cost of cold: Economics research links frozen crops to domestic violence (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692981641/", "url": "https://phys.org/news/2026-03-cold-economics-links-frozen-crops.html", "date_published": "2026-03-17T20:15:50.952Z", "date_modified": "2026-03-17T20:15:50.952Z", "_original_published": "2026-03-17T20:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The cost of cold: Economics research links frozen crops to domestic violence" }, "zh-Hans": { "title": "寒冷的代价:经济学研究揭示作物冻害与家庭暴力之间的关联" }, "ja": { "title": "寒さがもたらす代償:経済学の研究が、作物の凍害と家庭内暴力の関連性を指摘" }, "zh-Hant": { "title": "寒冷的代價:經濟學研究揭示作物凍害與家庭暴力之間的關聯" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-cost-of-cold-new-e.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "04:10  The cost of cold: Economics research links frozen crops to domestic violence (phys.org)" }, { "title": "物理学家追踪太阳磁场引擎,其位置位于太阳表面下方20万公里处", "summary": "Physicists trace the sun''s magnetic engine, 200,000 kilometers below its surface", "content_text": "Physicists trace the sun''s magnetic engine, 200,000 kilometers below its surface #astronomy\n原文地址: https://phys.org/news/2026-03-physicists-sun-magnetic-kilometers-surface.html", "content_html": "
\"scx1.b-cdn.net
Physicists trace the sun''s magnetic engine, 200,000 kilometers below its surface (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692976901/", "url": "https://phys.org/news/2026-03-physicists-sun-magnetic-kilometers-surface.html", "date_published": "2026-03-17T20:15:50.949Z", "date_modified": "2026-03-17T20:15:50.949Z", "_original_published": "2026-03-17T20:00:09.000Z", "_original_language": "en", "_translations": { "en": { "title": "Physicists trace the sun''s magnetic engine, 200,000 kilometers below its surface" }, "zh-Hans": { "title": "物理学家追踪太阳磁场引擎,其位置位于太阳表面下方20万公里处" }, "ja": { "title": "物理学者たちが、太陽の表面から20万キロメートル下の深部にある磁気エンジンを解明" }, "zh-Hant": { "title": "物理學家追蹤太陽磁場引擎,其位置位於太陽表面下方20萬公里處" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/njit-physicists-trace.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "04:00  Physicists trace the sun''s magnetic engine, 200,000 kilometers below its surface (phys.org)" }, { "title": "为什么有些人仍然相信外星人塑造了古代文明", "summary": "Why some people still believe that aliens shaped ancient civilizations", "content_text": "Why some people still believe that aliens shaped ancient civilizations #archaeology\n原文地址: https://phys.org/news/2026-03-people-aliens-ancient-civilizations.html", "content_html": "
\"scx1.b-cdn.net
Why some people still believe that aliens shaped ancient civilizations (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692980501/", "url": "https://phys.org/news/2026-03-people-aliens-ancient-civilizations.html", "date_published": "2026-03-17T20:15:50.944Z", "date_modified": "2026-03-17T20:15:50.944Z", "_original_published": "2026-03-17T20:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why some people still believe that aliens shaped ancient civilizations" }, "zh-Hans": { "title": "为什么有些人仍然相信外星人塑造了古代文明" }, "ja": { "title": "なぜ今でも、宇宙人が古代文明を築いたと信じている人がいるのか" }, "zh-Hant": { "title": "為什麼有些人仍然相信外星人塑造了古代文明" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2023/pyramids.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "04:00  Why some people still believe that aliens shaped ancient civilizations (phys.org)" }, { "title": "在网络方面,大自然更具优势", "summary": "When it comes to networks, nature has an edge", "content_text": "When it comes to networks, nature has an edge #mathematics\n原文地址: https://phys.org/news/2026-03-networks-nature-edge.html", "content_html": "
\"scx1.b-cdn.net
When it comes to networks, nature has an edge (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692978881/", "url": "https://phys.org/news/2026-03-networks-nature-edge.html", "date_published": "2026-03-17T20:00:03.871Z", "date_modified": "2026-03-17T20:00:03.871Z", "_original_published": "2026-03-17T19:50:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "When it comes to networks, nature has an edge" }, "zh-Hans": { "title": "在网络方面,大自然更具优势" }, "ja": { "title": "ネットワークという点では、自然の方が優れている" }, "zh-Hant": { "title": "在網絡方面,大自然更具優勢" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2023/networks.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "03:50  When it comes to networks, nature has an edge (phys.org)" }, { "title": "迄今为止规模最大的英国研究揭示了垃圾发电残余物中隐藏的化学风险", "summary": "Largest UK study to date uncovers hidden chemical risks in waste-to-energy residues", "content_text": "Largest UK study to date uncovers hidden chemical risks in waste-to-energy residues #environment\n原文地址: https://phys.org/news/2026-03-largest-uk-date-uncovers-hidden.html", "content_html": "
\"scx1.b-cdn.net
Largest UK study to date uncovers hidden chemical risks in waste-to-energy residues (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692979594/", "url": "https://phys.org/news/2026-03-largest-uk-date-uncovers-hidden.html", "date_published": "2026-03-17T20:00:03.867Z", "date_modified": "2026-03-17T20:00:03.867Z", "_original_published": "2026-03-17T19:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Largest UK study to date uncovers hidden chemical risks in waste-to-energy residues" }, "zh-Hans": { "title": "迄今为止规模最大的英国研究揭示了垃圾发电残余物中隐藏的化学风险" }, "ja": { "title": "英国でこれまでに行われた最大規模の研究により、廃棄物発電の残渣に含まれる隠れた化学的リスクが明らかになった" }, "zh-Hant": { "title": "迄今為止規模最大的英國研究揭示了垃圾發電殘餘物中隱藏的化學風險" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/largest-uk-study-uncov.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03:50  Largest UK study to date uncovers hidden chemical risks in waste-to-energy residues (phys.org)" }, { "title": "研究发现,如今飞蛾的飞行时间比一个世纪前更晚", "summary": "Moths are flying later in the year than a century ago, study finds", "content_text": "Moths are flying later in the year than a century ago, study finds #plants #animals\n原文地址: https://phys.org/news/2026-03-moths-flying-year-century.html", "content_html": "
\"scx1.b-cdn.net
Moths are flying later in the year than a century ago, study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968815/", "url": "https://phys.org/news/2026-03-moths-flying-year-century.html", "date_published": "2026-03-17T19:43:55.946Z", "date_modified": "2026-03-17T19:43:55.946Z", "_original_published": "2026-03-17T19:40:09.000Z", "_original_language": "en", "_translations": { "en": { "title": "Moths are flying later in the year than a century ago, study finds" }, "zh-Hans": { "title": "研究发现,如今飞蛾的飞行时间比一个世纪前更晚" }, "ja": { "title": "研究によると、蛾の飛来時期は100年前よりも遅くなっていることが分かった" }, "zh-Hant": { "title": "研究發現,如今飛蛾的飛行時間比一個世紀前更晚" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/research-moths-are-fly.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03:40  Moths are flying later in the year than a century ago, study finds (phys.org)" }, { "title": "一项针对牡蛎的研究发现,海洋二氧化碳封存可能对海洋生物构成威胁", "summary": "CO₂ storage in the sea may pose risks to marine life, oyster study finds", "content_text": "CO₂ storage in the sea may pose risks to marine life, oyster study finds #plants #animals\n原文地址: https://phys.org/news/2026-03-storage-sea-pose-marine-life.html", "content_html": "
\"scx1.b-cdn.net
CO₂ storage in the sea may pose risks to marine life, oyster study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692980442/", "url": "https://phys.org/news/2026-03-storage-sea-pose-marine-life.html", "date_published": "2026-03-17T19:43:55.942Z", "date_modified": "2026-03-17T19:43:55.942Z", "_original_published": "2026-03-17T19:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "CO₂ storage in the sea may pose risks to marine life, oyster study finds" }, "zh-Hans": { "title": "一项针对牡蛎的研究发现,海洋二氧化碳封存可能对海洋生物构成威胁" }, "ja": { "title": "海への二酸化炭素貯留は海洋生物にリスクをもたらす可能性がある――カキを用いた研究で判明" }, "zh-Hant": { "title": "一項針對牡蠣的研究發現,海洋二氧化碳封存可能對海洋生物構成威脅" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-study-highlights-r.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03:40  CO₂ storage in the sea may pose risks to marine life, oyster study finds (phys.org)" }, { "title": "实验观测到电子撞击超强激光时产生的量子辐射反应", "summary": "Experiment observes quantum radiation reaction as electrons hit an ultra-intense laser", "content_text": "Experiment observes quantum radiation reaction as electrons hit an ultra-intense laser #optics #photonics\n原文地址: https://phys.org/news/2026-03-quantum-reaction-electrons-ultra-intense.html", "content_html": "
\"scx1.b-cdn.net
Experiment observes quantum radiation reaction as electrons hit an ultra-intense laser (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692978702/", "url": "https://phys.org/news/2026-03-quantum-reaction-electrons-ultra-intense.html", "date_published": "2026-03-17T19:43:55.938Z", "date_modified": "2026-03-17T19:43:55.938Z", "_original_published": "2026-03-17T19:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Experiment observes quantum radiation reaction as electrons hit an ultra-intense laser" }, "zh-Hans": { "title": "实验观测到电子撞击超强激光时产生的量子辐射反应" }, "ja": { "title": "電子が超高強度レーザーに衝突する際の量子放射反応を実験で観測" }, "zh-Hant": { "title": "實驗觀測到電子撞擊超強激光時產生的量子輻射反應" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/experiment-provides-ne.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03:30  Experiment observes quantum radiation reaction as electrons hit an ultra-intense laser (phys.org)" }, { "title": "为何高校在为残障学生提供学位教育方面仍面临困难", "summary": "Why universities still struggle to make degrees accessible for disabled students", "content_text": "Why universities still struggle to make degrees accessible for disabled students #education\n原文地址: https://phys.org/news/2026-03-universities-struggle-degrees-accessible-disabled.html", "content_html": "
\"scx1.b-cdn.net
Why universities still struggle to make degrees accessible for disabled students (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692980141/", "url": "https://phys.org/news/2026-03-universities-struggle-degrees-accessible-disabled.html", "date_published": "2026-03-17T19:43:55.934Z", "date_modified": "2026-03-17T19:43:55.934Z", "_original_published": "2026-03-17T19:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why universities still struggle to make degrees accessible for disabled students" }, "zh-Hans": { "title": "为何高校在为残障学生提供学位教育方面仍面临困难" }, "ja": { "title": "なぜ大学は、障害のある学生が学位を取得しやすい環境を整えることに依然として苦労しているのか" }, "zh-Hant": { "title": "為何高校在為殘障學生提供學位教育方面仍面臨困難" } }, "tags": [ "Education" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/disabled-student.jpg", "_tag_links": [ { "name": "Education", "url": "https://i.buzzing.cc/phys/tags/education/" } ], "_lite_content_html": "03:30  Why universities still struggle to make degrees accessible for disabled students (phys.org)" }, { "title": "3D结构揭示结核杆菌如何获取能量", "summary": "3D structure reveals how tuberculosis bacteria power themselves", "content_text": "3D structure reveals how tuberculosis bacteria power themselves #cell #microbiology\n原文地址: https://phys.org/news/2026-03-3d-reveals-tuberculosis-bacteria-power.html", "content_html": "
\"scx1.b-cdn.net
3D structure reveals how tuberculosis bacteria power themselves (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968807/", "url": "https://phys.org/news/2026-03-3d-reveals-tuberculosis-bacteria-power.html", "date_published": "2026-03-17T19:27:52.519Z", "date_modified": "2026-03-17T19:27:52.519Z", "_original_published": "2026-03-17T19:20:10.000Z", "_original_language": "en", "_translations": { "en": { "title": "3D structure reveals how tuberculosis bacteria power themselves" }, "zh-Hans": { "title": "3D结构揭示结核杆菌如何获取能量" }, "ja": { "title": "3D構造から、結核菌がどのようにエネルギーを得ているかが明らかになった" }, "zh-Hant": { "title": "3D結構揭示結核桿菌如何獲取能量" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-maps-how-tubercu.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03:20  3D structure reveals how tuberculosis bacteria power themselves (phys.org)" }, { "title": "小行星贝努崎岖不平的表面曾让美国宇航局(NASA)感到困惑——如今,我们终于知道原因了", "summary": "Asteroid Bennu''s rugged surface baffled NASA—now, we finally know why", "content_text": "Asteroid Bennu''s rugged surface baffled NASA—now, we finally know why #planetary #sciences\n原文地址: https://phys.org/news/2026-03-asteroid-bennu-rugged-surface-baffled.html", "content_html": "
\"scx1.b-cdn.net
Asteroid Bennu''s rugged surface baffled NASA—now, we finally know why (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968741/", "url": "https://phys.org/news/2026-03-asteroid-bennu-rugged-surface-baffled.html", "date_published": "2026-03-17T19:12:07.485Z", "date_modified": "2026-03-17T19:12:07.485Z", "_original_published": "2026-03-17T19:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Asteroid Bennu''s rugged surface baffled NASA—now, we finally know why" }, "zh-Hans": { "title": "小行星贝努崎岖不平的表面曾让美国宇航局(NASA)感到困惑——如今,我们终于知道原因了" }, "ja": { "title": "小惑星ベヌの起伏に富んだ地表はNASAを困惑させていたが、ついにその理由が判明した" }, "zh-Hant": { "title": "小行星貝努崎嶇不平的表面曾讓美國宇航局(NASA)感到困惑——如今,我們終於知道原因了" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/asteroid-bennus-rugged.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03:00  Asteroid Bennu''s rugged surface baffled NASA—now, we finally know why (phys.org)" }, { "title": "“蜘蛛侠”细胞在其蛛网中捕获病毒基因组", "summary": "''Spiderman'' cells trap viral genomes in their web", "content_text": "''Spiderman'' cells trap viral genomes in their web #cell #microbiology\n原文地址: https://phys.org/news/2026-03-spiderman-cells-viral-genomes-web.html", "content_html": "
\"scx1.b-cdn.net
''Spiderman'' cells trap viral genomes in their web (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692978281/", "url": "https://phys.org/news/2026-03-spiderman-cells-viral-genomes-web.html", "date_published": "2026-03-17T19:12:07.482Z", "date_modified": "2026-03-17T19:12:07.482Z", "_original_published": "2026-03-17T19:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "''Spiderman'' cells trap viral genomes in their web" }, "zh-Hans": { "title": "“蜘蛛侠”细胞在其蛛网中捕获病毒基因组" }, "ja": { "title": "「スパイダーマン」細胞は、その網の中にウイルスのゲノムを閉じ込める" }, "zh-Hant": { "title": "“蜘蛛俠”細胞在其蛛網中捕獲病毒基因組" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/4-dna.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03:00  ''Spiderman'' cells trap viral genomes in their web (phys.org)" }, { "title": "现实环境中抗噪声量子催化剂的数学基础", "summary": "Mathematical foundations for noise-tolerant quantum catalysts in real-world environments", "content_text": "Mathematical foundations for noise-tolerant quantum catalysts in real-world environments #quantum #physics\n原文地址: https://phys.org/news/2026-03-mathematical-foundations-noise-tolerant-quantum.html", "content_html": "
\"scx1.b-cdn.net
Mathematical foundations for noise-tolerant quantum catalysts in real-world environments (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968501/", "url": "https://phys.org/news/2026-03-mathematical-foundations-noise-tolerant-quantum.html", "date_published": "2026-03-17T18:55:53.347Z", "date_modified": "2026-03-17T18:55:53.347Z", "_original_published": "2026-03-17T18:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Mathematical foundations for noise-tolerant quantum catalysts in real-world environments" }, "zh-Hans": { "title": "现实环境中抗噪声量子催化剂的数学基础" }, "ja": { "title": "実環境におけるノイズ耐性量子触媒の数学的基礎" }, "zh-Hant": { "title": "現實環境中抗噪聲量子催化劑的數學基礎" } }, "tags": [ "Quantum", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/mathematical-foundatio.jpg", "_tag_links": [ { "name": "Quantum", "url": "https://i.buzzing.cc/phys/tags/quantum/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "02:40  Mathematical foundations for noise-tolerant quantum catalysts in real-world environments (phys.org)" }, { "title": "在克利夫兰上空坠落的疑似陨石,在数个州外都能看到", "summary": "Suspected meteor falling over Cleveland could be seen several states away", "content_text": "Suspected meteor falling over Cleveland could be seen several states away #space #exploration\n原文地址: https://phys.org/news/2026-03-meteor-falling-cleveland-states.html", "content_html": "
\"scx1.b-cdn.net
Suspected meteor falling over Cleveland could be seen several states away (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692975906/", "url": "https://phys.org/news/2026-03-meteor-falling-cleveland-states.html", "date_published": "2026-03-17T18:40:15.022Z", "date_modified": "2026-03-17T18:40:15.022Z", "_original_published": "2026-03-17T18:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Suspected meteor falling over Cleveland could be seen several states away" }, "zh-Hans": { "title": "在克利夫兰上空坠落的疑似陨石,在数个州外都能看到" }, "ja": { "title": "クリーブランド上空に落下したとみられる隕石は、数州離れた場所からも目撃された" }, "zh-Hant": { "title": "在克利夫蘭上空墜落的疑似隕石,在數個州外都能看到" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/suspected-meteor-falli.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "02:30  Suspected meteor falling over Cleveland could be seen several states away (phys.org)" }, { "title": "日本发现新种珍稀鸟类", "summary": "New rare bird species discovered in Japan", "content_text": "New rare bird species discovered in Japan #plants #animals\n原文地址: https://phys.org/news/2026-03-rare-bird-species-japan.html", "content_html": "
\"scx1.b-cdn.net
New rare bird species discovered in Japan (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967721/", "url": "https://phys.org/news/2026-03-rare-bird-species-japan.html", "date_published": "2026-03-17T18:23:49.162Z", "date_modified": "2026-03-17T18:23:49.162Z", "_original_published": "2026-03-17T18:20:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "New rare bird species discovered in Japan" }, "zh-Hans": { "title": "日本发现新种珍稀鸟类" }, "ja": { "title": "日本で新たな希少鳥類が発見された" }, "zh-Hant": { "title": "日本發現新種珍稀鳥類" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-rare-bird-species.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "02:20  New rare bird species discovered in Japan (phys.org)" }, { "title": "经过工程改造的无水生物细胞在室温下干燥储存数年后仍能检测气味", "summary": "Engineered anhydrobiotic cells detect odors after years of dry, room-temperature storage", "content_text": "Engineered anhydrobiotic cells detect odors after years of dry, room-temperature storage #cell #microbiology\n原文地址: https://phys.org/news/2026-03-anhydrobiotic-cells-odors-years-dry.html", "content_html": "
\"scx1.b-cdn.net
Engineered anhydrobiotic cells detect odors after years of dry, room-temperature storage (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692975821/", "url": "https://phys.org/news/2026-03-anhydrobiotic-cells-odors-years-dry.html", "date_published": "2026-03-17T18:23:49.158Z", "date_modified": "2026-03-17T18:23:49.158Z", "_original_published": "2026-03-17T18:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Engineered anhydrobiotic cells detect odors after years of dry, room-temperature storage" }, "zh-Hans": { "title": "经过工程改造的无水生物细胞在室温下干燥储存数年后仍能检测气味" }, "ja": { "title": "人工的に作られた無水生細胞は、室温で乾燥保存された後、数年経っても臭いを感知する" }, "zh-Hant": { "title": "經過工程改造的無水生物細胞在室溫下乾燥儲存數年後仍能檢測氣味" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/an-anhydrobiotic-cell.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "02:20  Engineered anhydrobiotic cells detect odors after years of dry, room-temperature storage (phys.org)" }, { "title": "新的DNA证据揭示了帕劳首批定居者的复杂起源", "summary": "New DNA evidence reveals the complex origin of Palau''s first settlers", "content_text": "New DNA evidence reveals the complex origin of Palau''s first settlers #archaeology\n原文地址: https://phys.org/news/2026-03-dna-evidence-reveals-complex-palau.html", "content_html": "
\"scx1.b-cdn.net
New DNA evidence reveals the complex origin of Palau''s first settlers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692974796/", "url": "https://phys.org/news/2026-03-dna-evidence-reveals-complex-palau.html", "date_published": "2026-03-17T18:23:49.155Z", "date_modified": "2026-03-17T18:23:49.155Z", "_original_published": "2026-03-17T18:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "New DNA evidence reveals the complex origin of Palau''s first settlers" }, "zh-Hans": { "title": "新的DNA证据揭示了帕劳首批定居者的复杂起源" }, "ja": { "title": "新たなDNA証拠が、パラオの最初の入植者の複雑な起源を明らかにした" }, "zh-Hant": { "title": "新的DNA證據揭示了帕勞首批定居者的複雜起源" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-dna-evidence-revea.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "02:20  New DNA evidence reveals the complex origin of Palau''s first settlers (phys.org)" }, { "title": "科学家在欧洲核子研究组织(CERN)发现了一种新的、类似质子的重粒子", "summary": "Scientists discover new heavy proton-like particle at CERN", "content_text": "Scientists discover new heavy proton-like particle at CERN #general #physics\n原文地址: https://phys.org/news/2026-03-scientists-play-key-role-discovery.html", "content_html": "
\"scx1.b-cdn.net
Scientists discover new heavy proton-like particle at CERN (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692969002/", "url": "https://phys.org/news/2026-03-scientists-play-key-role-discovery.html", "date_published": "2026-03-17T18:23:49.151Z", "date_modified": "2026-03-17T18:23:49.151Z", "_original_published": "2026-03-17T18:19:48.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists discover new heavy proton-like particle at CERN" }, "zh-Hans": { "title": "科学家在欧洲核子研究组织(CERN)发现了一种新的、类似质子的重粒子" }, "ja": { "title": "科学者らがCERNで新しい重陽子様粒子を発見" }, "zh-Hant": { "title": "科學家在歐洲核子研究組織(CERN)發現了一種新的、類似質子的重粒子" } }, "tags": [ "General", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/university-of-manchest.jpg", "_tag_links": [ { "name": "General", "url": "https://i.buzzing.cc/phys/tags/general/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "02:19  Scientists discover new heavy proton-like particle at CERN (phys.org)" }, { "title": "钙钛矿晶体可承载量子比特,这挑战了长期以来的假设", "summary": "Perovskite crystals can host qubits, challenging long-held assumptions", "content_text": "Perovskite crystals can host qubits, challenging long-held assumptions #condensed #matter\n原文地址: https://phys.org/news/2026-03-perovskite-crystals-host-qubits-held.html", "content_html": "
\"scx1.b-cdn.net
Perovskite crystals can host qubits, challenging long-held assumptions (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967301/", "url": "https://phys.org/news/2026-03-perovskite-crystals-host-qubits-held.html", "date_published": "2026-03-17T18:07:52.133Z", "date_modified": "2026-03-17T18:07:52.133Z", "_original_published": "2026-03-17T18:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Perovskite crystals can host qubits, challenging long-held assumptions" }, "zh-Hans": { "title": "钙钛矿晶体可承载量子比特,这挑战了长期以来的假设" }, "ja": { "title": "ペロブスカイト結晶は量子ビットを宿すことができ、長年の通説に異を唱えている" }, "zh-Hant": { "title": "鈣鈦礦晶體可承載量子比特,這挑戰了長期以來的假設" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/qubits-created-using-u.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "02:00  Perovskite crystals can host qubits, challenging long-held assumptions (phys.org)" }, { "title": "商学院中的生成式人工智能:是朋友还是敌人?", "summary": "Generative AI in business schools: Friend or foe?", "content_text": "Generative AI in business schools: Friend or foe? #economics #business\n原文地址: https://phys.org/news/2026-03-generative-ai-business-schools-friend.html", "content_html": "
\"scx1.b-cdn.net
Generative AI in business schools: Friend or foe? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692971922/", "url": "https://phys.org/news/2026-03-generative-ai-business-schools-friend.html", "date_published": "2026-03-17T17:52:11.020Z", "date_modified": "2026-03-17T17:52:11.020Z", "_original_published": "2026-03-17T17:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Generative AI in business schools: Friend or foe?" }, "zh-Hans": { "title": "商学院中的生成式人工智能:是朋友还是敌人?" }, "ja": { "title": "ビジネススクールにおける生成AI:味方か、それとも敵か?" }, "zh-Hant": { "title": "商學院中的生成式人工智能:是朋友還是敵人?" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/5-ai.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "01:50  Generative AI in business schools: Friend or foe? (phys.org)" }, { "title": "调整飞行路线可大幅减少航空业对气候的影响", "summary": "Changing flight paths could slash aviation''s climate impact", "content_text": "Changing flight paths could slash aviation''s climate impact #environment\n原文地址: https://phys.org/news/2026-03-flight-paths-slash-aviation-climate.html", "content_html": "
\"scx1.b-cdn.net
Changing flight paths could slash aviation''s climate impact (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967181/", "url": "https://phys.org/news/2026-03-flight-paths-slash-aviation-climate.html", "date_published": "2026-03-17T17:52:11.017Z", "date_modified": "2026-03-17T17:52:11.017Z", "_original_published": "2026-03-17T17:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Changing flight paths could slash aviation''s climate impact" }, "zh-Hans": { "title": "调整飞行路线可大幅减少航空业对气候的影响" }, "ja": { "title": "飛行経路を変更すれば、航空業界の気候への影響を大幅に削減できる" }, "zh-Hant": { "title": "調整飛行路線可大幅減少航空業對氣候的影響" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/aviation.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "01:40  Changing flight paths could slash aviation''s climate impact (phys.org)" }, { "title": "在暴力事件不断升级之际,你需要了解的关于墨西哥贩毒集团的真相", "summary": "What you need to know about Mexico''s drug cartels amid escalating violence", "content_text": "What you need to know about Mexico''s drug cartels amid escalating violence #political #science\n原文地址: https://phys.org/news/2026-03-mexico-drug-cartels-escalating-violence.html", "content_html": "
\"scx1.b-cdn.net
What you need to know about Mexico''s drug cartels amid escalating violence (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692971022/", "url": "https://phys.org/news/2026-03-mexico-drug-cartels-escalating-violence.html", "date_published": "2026-03-17T17:52:11.013Z", "date_modified": "2026-03-17T17:52:11.013Z", "_original_published": "2026-03-17T17:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "What you need to know about Mexico''s drug cartels amid escalating violence" }, "zh-Hans": { "title": "在暴力事件不断升级之际,你需要了解的关于墨西哥贩毒集团的真相" }, "ja": { "title": "激化する暴力の中で知っておくべきメキシコの麻薬カルテルに関する情報" }, "zh-Hant": { "title": "在暴力事件不斷升級之際,你需要了解的關於墨西哥販毒集團的真相" } }, "tags": [ "Political", "science" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/drug-cartel.jpg", "_tag_links": [ { "name": "Political", "url": "https://i.buzzing.cc/phys/tags/political/" }, { "name": "science", "url": "https://i.buzzing.cc/phys/tags/science/" } ], "_lite_content_html": "01:40  What you need to know about Mexico''s drug cartels amid escalating violence (phys.org)" }, { "title": "一项研究表明,社会背景影响着孩子在学校的学习努力程度", "summary": "Social background shapes how hard children work at school, according to study", "content_text": "Social background shapes how hard children work at school, according to study #social #sciences\n原文地址: https://phys.org/news/2026-03-social-background-hard-children-school.html", "content_html": "
\"scx1.b-cdn.net
Social background shapes how hard children work at school, according to study (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692970061/", "url": "https://phys.org/news/2026-03-social-background-hard-children-school.html", "date_published": "2026-03-17T17:36:25.302Z", "date_modified": "2026-03-17T17:36:25.302Z", "_original_published": "2026-03-17T17:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Social background shapes how hard children work at school, according to study" }, "zh-Hans": { "title": "一项研究表明,社会背景影响着孩子在学校的学习努力程度" }, "ja": { "title": "ある研究によると、社会的背景は、子どもが学校でどれほど一生懸命勉強するかに影響を与えるという" }, "zh-Hant": { "title": "一項研究表明,社會背景影響著孩子在學校的學習努力程度" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/social-background-shap.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "01:30  Social background shapes how hard children work at school, according to study (phys.org)" }, { "title": "人工智能如何改变德国对技术工人的需求", "summary": "How AI is changing the demand for skilled workers in Germany", "content_text": "How AI is changing the demand for skilled workers in Germany #economics #business\n原文地址: https://phys.org/news/2026-03-ai-demand-skilled-workers-germany.html", "content_html": "
\"scx1.b-cdn.net
How AI is changing the demand for skilled workers in Germany (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692970001/", "url": "https://phys.org/news/2026-03-ai-demand-skilled-workers-germany.html", "date_published": "2026-03-17T17:36:25.299Z", "date_modified": "2026-03-17T17:36:25.299Z", "_original_published": "2026-03-17T17:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "How AI is changing the demand for skilled workers in Germany" }, "zh-Hans": { "title": "人工智能如何改变德国对技术工人的需求" }, "ja": { "title": "AIがドイツの熟練労働者への需要をどのように変えているか" }, "zh-Hant": { "title": "人工智能如何改變德國對技術工人的需求" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/skill-worker.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "01:20  How AI is changing the demand for skilled workers in Germany (phys.org)" }, { "title": "实验对土卫六存在类细胞膜的假说提出质疑", "summary": "Experiment challenges hypothesis of cell-like membranes on Titan", "content_text": "Experiment challenges hypothesis of cell-like membranes on Titan #astrobiology\n原文地址: https://phys.org/news/2026-03-hypothesis-cell-membranes-titan.html", "content_html": "
\"scx1.b-cdn.net
Experiment challenges hypothesis of cell-like membranes on Titan (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692963909/", "url": "https://phys.org/news/2026-03-hypothesis-cell-membranes-titan.html", "date_published": "2026-03-17T17:36:25.295Z", "date_modified": "2026-03-17T17:36:25.295Z", "_original_published": "2026-03-17T17:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Experiment challenges hypothesis of cell-like membranes on Titan" }, "zh-Hans": { "title": "实验对土卫六存在类细胞膜的假说提出质疑" }, "ja": { "title": "実験が、タイタンに細胞のような膜が存在するという仮説に異議を唱える" }, "zh-Hant": { "title": "實驗對土衛六存在類細胞膜的假說提出質疑" } }, "tags": [ "Astrobiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2015/titan.jpg", "_tag_links": [ { "name": "Astrobiology", "url": "https://i.buzzing.cc/phys/tags/astrobiology/" } ], "_lite_content_html": "01:20  Experiment challenges hypothesis of cell-like membranes on Titan (phys.org)" }, { "title": "鲸鱼在海洋中留下了DNA“足迹”。以下是我们的追踪方法", "summary": "Whales leave DNA ''footprints'' across the ocean. Here''s how we track them", "content_text": "Whales leave DNA ''footprints'' across the ocean. Here''s how we track them #ecology\n原文地址: https://phys.org/news/2026-03-whales-dna-footprints-ocean-track.html", "content_html": "
\"scx1.b-cdn.net
Whales leave DNA ''footprints'' across the ocean. Here''s how we track them (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692969822/", "url": "https://phys.org/news/2026-03-whales-dna-footprints-ocean-track.html", "date_published": "2026-03-17T17:19:52.758Z", "date_modified": "2026-03-17T17:19:52.758Z", "_original_published": "2026-03-17T17:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Whales leave DNA ''footprints'' across the ocean. Here''s how we track them" }, "zh-Hans": { "title": "鲸鱼在海洋中留下了DNA“足迹”。以下是我们的追踪方法" }, "ja": { "title": "クジラは海中にDNAの「足跡」を残します。その追跡方法をご紹介します" }, "zh-Hant": { "title": "鯨魚在海洋中留下了DNA“足跡”。以下是我們的追蹤方法" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2022/whale.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "01:10  Whales leave DNA ''footprints'' across the ocean. Here''s how we track them (phys.org)" }, { "title": "随着中东冲突推高粮价,发展中国家为何可能首当其冲", "summary": "Why developing nations could be the first to suffer as the Middle East conflict raises food prices", "content_text": "Why developing nations could be the first to suffer as the Middle East conflict raises food prices #social #sciences\n原文地址: https://phys.org/news/2026-03-nations-middle-east-conflict-food.html", "content_html": "
\"scx1.b-cdn.net
Why developing nations could be the first to suffer as the Middle East conflict raises food prices (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692969761/", "url": "https://phys.org/news/2026-03-nations-middle-east-conflict-food.html", "date_published": "2026-03-17T17:04:00.650Z", "date_modified": "2026-03-17T17:04:00.650Z", "_original_published": "2026-03-17T17:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why developing nations could be the first to suffer as the Middle East conflict raises food prices" }, "zh-Hans": { "title": "随着中东冲突推高粮价,发展中国家为何可能首当其冲" }, "ja": { "title": "中東紛争による食料価格の高騰で、なぜ発展途上国が真っ先に打撃を受けることになるのか" }, "zh-Hant": { "title": "隨著中東衝突推高糧價,發展中國家為何可能首當其衝" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2024/food.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "01:00  Why developing nations could be the first to suffer as the Middle East conflict raises food prices (phys.org)" }, { "title": "濒危的小齿锯鱼在佛罗里达州一家历史悠久的育苗场重现生机", "summary": "Endangered smalltooth sawfish make a comeback in a historical Florida nursery", "content_text": "Endangered smalltooth sawfish make a comeback in a historical Florida nursery #plants #animals\n原文地址: https://phys.org/news/2026-03-endangered-smalltooth-sawfish-comeback-historical.html", "content_html": "
\"scx1.b-cdn.net
Endangered smalltooth sawfish make a comeback in a historical Florida nursery (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967002/", "url": "https://phys.org/news/2026-03-endangered-smalltooth-sawfish-comeback-historical.html", "date_published": "2026-03-17T17:04:00.647Z", "date_modified": "2026-03-17T17:04:00.647Z", "_original_published": "2026-03-17T17:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Endangered smalltooth sawfish make a comeback in a historical Florida nursery" }, "zh-Hans": { "title": "濒危的小齿锯鱼在佛罗里达州一家历史悠久的育苗场重现生机" }, "ja": { "title": "絶滅の危機にあるコガネノコギリエイが、フロリダ州の由緒ある繁殖施設で復活を果たした" }, "zh-Hant": { "title": "瀕危的小齒鋸魚在佛羅里達州一家歷史悠久的育苗場重現生機" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/fau-fwc-study-endanger.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "01:00  Endangered smalltooth sawfish make a comeback in a historical Florida nursery (phys.org)" }, { "title": "一项新的蛋白质计划将如何改变英国的国家安全", "summary": "How a new plan for protein could transform the UK''s national security", "content_text": "How a new plan for protein could transform the UK''s national security #ecology\n原文地址: https://phys.org/news/2026-03-protein-uk-national.html", "content_html": "
\"scx1.b-cdn.net
How a new plan for protein could transform the UK''s national security (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692969702/", "url": "https://phys.org/news/2026-03-protein-uk-national.html", "date_published": "2026-03-17T17:04:00.643Z", "date_modified": "2026-03-17T17:04:00.643Z", "_original_published": "2026-03-17T16:50:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "How a new plan for protein could transform the UK''s national security" }, "zh-Hans": { "title": "一项新的蛋白质计划将如何改变英国的国家安全" }, "ja": { "title": "タンパク質に関する新たな計画が、英国の国家安全保障をどのように変革しうるか" }, "zh-Hant": { "title": "一項新的蛋白質計劃將如何改變英國的國家安全" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/1-cow.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "00:50  How a new plan for protein could transform the UK''s national security (phys.org)" }, { "title": "超快激光脉冲使基于钻石的量子互联网更近一步", "summary": "Ultrafast laser pulses bring diamond-based quantum internet closer to reality", "content_text": "Ultrafast laser pulses bring diamond-based quantum internet closer to reality #optics #photonics\n原文地址: https://phys.org/news/2026-03-ultrafast-laser-pulses-diamond-based.html", "content_html": "
\"scx1.b-cdn.net
Ultrafast laser pulses bring diamond-based quantum internet closer to reality (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692966881/", "url": "https://phys.org/news/2026-03-ultrafast-laser-pulses-diamond-based.html", "date_published": "2026-03-17T16:48:42.210Z", "date_modified": "2026-03-17T16:48:42.211Z", "_original_published": "2026-03-17T16:40:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ultrafast laser pulses bring diamond-based quantum internet closer to reality" }, "zh-Hans": { "title": "超快激光脉冲使基于钻石的量子互联网更近一步" }, "ja": { "title": "超高速レーザーパルスにより、ダイヤモンドを基盤とした量子インターネットの実現が近づいた" }, "zh-Hant": { "title": "超快激光脈衝使基於鑽石的量子互聯網更近一步" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ultrafast-laser-pulses.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "00:40  Ultrafast laser pulses bring diamond-based quantum internet closer to reality (phys.org)" }, { "title": "研究人员利用天然纤维开发出可生物降解的植物基包装材料", "summary": "Researchers develop biodegradable, plant‑based packaging from natural fibers", "content_text": "Researchers develop biodegradable, plant‑based packaging from natural fibers #materials #science\n原文地址: https://phys.org/news/2026-03-biodegradable-plantbased-packaging-natural-fibers.html", "content_html": "
\"scx1.b-cdn.net
Researchers develop biodegradable, plant‑based packaging from natural fibers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692969582/", "url": "https://phys.org/news/2026-03-biodegradable-plantbased-packaging-natural-fibers.html", "date_published": "2026-03-17T16:48:42.207Z", "date_modified": "2026-03-17T16:48:42.207Z", "_original_published": "2026-03-17T16:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Researchers develop biodegradable, plant‑based packaging from natural fibers" }, "zh-Hans": { "title": "研究人员利用天然纤维开发出可生物降解的植物基包装材料" }, "ja": { "title": "研究者らが、天然繊維を用いた生分解性の植物由来パッケージを開発" }, "zh-Hant": { "title": "研究人員利用天然纖維開發出可生物降解的植物基包裝材料" } }, "tags": [ "Materials", "Science" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/plastic-packaging.jpg", "_tag_links": [ { "name": "Materials", "url": "https://i.buzzing.cc/phys/tags/materials/" }, { "name": "Science", "url": "https://i.buzzing.cc/phys/tags/science/" } ], "_lite_content_html": "00:40  Researchers develop biodegradable, plant‑based packaging from natural fibers (phys.org)" }, { "title": "族裔土地权未能为哥伦比亚非裔群体提供经济保障", "summary": "Ethnic land rights fail to provide Afro-Colombians with economic security", "content_text": "Ethnic land rights fail to provide Afro-Colombians with economic security #environment\n原文地址: https://phys.org/news/2026-03-ethnic-rights-afro-colombians-economic.html", "content_html": "
\"scx1.b-cdn.net
Ethnic land rights fail to provide Afro-Colombians with economic security (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692968801/", "url": "https://phys.org/news/2026-03-ethnic-rights-afro-colombians-economic.html", "date_published": "2026-03-17T16:31:55.086Z", "date_modified": "2026-03-17T16:31:55.086Z", "_original_published": "2026-03-17T16:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ethnic land rights fail to provide Afro-Colombians with economic security" }, "zh-Hans": { "title": "族裔土地权未能为哥伦比亚非裔群体提供经济保障" }, "ja": { "title": "先住民族の土地権は、アフロ・コロンビア人に経済的な安定をもたらしていない" }, "zh-Hant": { "title": "族裔土地權未能為哥倫比亞非裔群體提供經濟保障" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ethnic-land-rights-fai.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "00:30  Ethnic land rights fail to provide Afro-Colombians with economic security (phys.org)" }, { "title": "超导技术的进步有望推动超高能效电子设备的研发", "summary": "Superconductor advancement could unlock ultra-energy-efficient electronics", "content_text": "Superconductor advancement could unlock ultra-energy-efficient electronics #superconductivity\n原文地址: https://phys.org/news/2026-03-superconductor-advancement-ultra-energy-efficient.html", "content_html": "
\"scx1.b-cdn.net
Superconductor advancement could unlock ultra-energy-efficient electronics (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692966521/", "url": "https://phys.org/news/2026-03-superconductor-advancement-ultra-energy-efficient.html", "date_published": "2026-03-17T16:31:55.082Z", "date_modified": "2026-03-17T16:31:55.082Z", "_original_published": "2026-03-17T16:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Superconductor advancement could unlock ultra-energy-efficient electronics" }, "zh-Hans": { "title": "超导技术的进步有望推动超高能效电子设备的研发" }, "ja": { "title": "超伝導技術の進歩により、超高効率な電子機器の実現が可能になるかもしれない" }, "zh-Hant": { "title": "超導技術的進步有望推動超高能效電子設備的研發" } }, "tags": [ "Superconductivity" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/superconductor-advance.jpg", "_tag_links": [ { "name": "Superconductivity", "url": "https://i.buzzing.cc/phys/tags/superconductivity/" } ], "_lite_content_html": "00:20  Superconductor advancement could unlock ultra-energy-efficient electronics (phys.org)" }, { "title": "新研究为寻找外星氧气增添了变数", "summary": "New study complicates the search for alien oxygen", "content_text": "New study complicates the search for alien oxygen #planetary #sciences\n原文地址: https://phys.org/news/2026-03-complicates-alien-oxygen.html", "content_html": "
\"scx1.b-cdn.net
New study complicates the search for alien oxygen (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967842/", "url": "https://phys.org/news/2026-03-complicates-alien-oxygen.html", "date_published": "2026-03-17T16:15:54.771Z", "date_modified": "2026-03-17T16:15:54.771Z", "_original_published": "2026-03-17T16:10:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "New study complicates the search for alien oxygen" }, "zh-Hans": { "title": "新研究为寻找外星氧气增添了变数" }, "ja": { "title": "新たな研究により、地球外酸素の探査はさらに複雑化している" }, "zh-Hant": { "title": "新研究為尋找外星氧氣增添了變數" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-study-complicates.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "00:10  New study complicates the search for alien oxygen (phys.org)" }, { "title": "天文学家发现了一个来源不明的长周期射电瞬变源", "summary": "Astronomers discover long-period radio transient of unknown origin", "content_text": "Astronomers discover long-period radio transient of unknown origin #astronomy\n原文地址: https://phys.org/news/2026-03-astronomers-period-radio-transient-unknown.html", "content_html": "
\"scx1.b-cdn.net
Astronomers discover long-period radio transient of unknown origin (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692963602/", "url": "https://phys.org/news/2026-03-astronomers-period-radio-transient-unknown.html", "date_published": "2026-03-17T16:15:54.767Z", "date_modified": "2026-03-17T16:15:54.767Z", "_original_published": "2026-03-17T16:00:11.000Z", "_original_language": "en", "_translations": { "en": { "title": "Astronomers discover long-period radio transient of unknown origin" }, "zh-Hans": { "title": "天文学家发现了一个来源不明的长周期射电瞬变源" }, "ja": { "title": "天文学者らが、原因不明の長周期の電波一過性現象を発見した" }, "zh-Hant": { "title": "天文學家發現了一個來源不明的長週期射電瞬變源" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/astronomers-discover-a-4.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "00:00  Astronomers discover long-period radio transient of unknown origin (phys.org)" }, { "title": "犯罪学教授参与撰写研究,探讨针对亚裔女性的刻板印象", "summary": "Criminology professor co-authors study examining stereotypes against Asian women", "content_text": "Criminology professor co-authors study examining stereotypes against Asian women #social #sciences\n原文地址: https://phys.org/news/2026-03-criminology-professor-authors-stereotypes-asian.html", "content_html": "
\"scx1.b-cdn.net
Criminology professor co-authors study examining stereotypes against Asian women (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692967061/", "url": "https://phys.org/news/2026-03-criminology-professor-authors-stereotypes-asian.html", "date_published": "2026-03-17T16:15:54.764Z", "date_modified": "2026-03-17T16:15:54.764Z", "_original_published": "2026-03-17T16:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Criminology professor co-authors study examining stereotypes against Asian women" }, "zh-Hans": { "title": "犯罪学教授参与撰写研究,探讨针对亚裔女性的刻板印象" }, "ja": { "title": "犯罪学の教授が、アジア系女性に対する固定観念を検証した研究の共著者となる" }, "zh-Hant": { "title": "犯罪學教授參與撰寫研究,探討針對亞裔女性的刻板印象" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/asian-women.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "00:00  Criminology professor co-authors study examining stereotypes against Asian women (phys.org)" }, { "title": "离散时间晶体可作为检测微弱磁振荡的有效传感器", "summary": "Discrete time crystal acts as a usable sensor for weak magnetic oscillations", "content_text": "Discrete time crystal acts as a usable sensor for weak magnetic oscillations #condensed #matter\n原文地址: https://phys.org/news/2026-03-discrete-crystal-usable-sensor-weak.html", "content_html": "
\"scx1.b-cdn.net
Discrete time crystal acts as a usable sensor for weak magnetic oscillations (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692963594/", "url": "https://phys.org/news/2026-03-discrete-crystal-usable-sensor-weak.html", "date_published": "2026-03-17T15:44:21.279Z", "date_modified": "2026-03-17T15:44:21.279Z", "_original_published": "2026-03-17T15:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Discrete time crystal acts as a usable sensor for weak magnetic oscillations" }, "zh-Hans": { "title": "离散时间晶体可作为检测微弱磁振荡的有效传感器" }, "ja": { "title": "離散時間結晶は、微弱な磁気振動を検出する実用的なセンサーとして機能する" }, "zh-Hant": { "title": "離散時間晶體可作為檢測微弱磁振盪的有效傳感器" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/time-crystal-becomes-a.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-17  Discrete time crystal acts as a usable sensor for weak magnetic oscillations (phys.org)" }, { "title": "证实抗生素治疗石珊瑚组织缺失症的安全性", "summary": "Safety of antibiotic treatment for stony coral tissue loss disease confirmed", "content_text": "Safety of antibiotic treatment for stony coral tissue loss disease confirmed #plants #animals\n原文地址: https://phys.org/news/2026-03-safety-antibiotic-treatment-stony-coral.html", "content_html": "
\"scx1.b-cdn.net
Safety of antibiotic treatment for stony coral tissue loss disease confirmed (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692965681/", "url": "https://phys.org/news/2026-03-safety-antibiotic-treatment-stony-coral.html", "date_published": "2026-03-17T15:44:21.275Z", "date_modified": "2026-03-17T15:44:21.275Z", "_original_published": "2026-03-17T15:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Safety of antibiotic treatment for stony coral tissue loss disease confirmed" }, "zh-Hans": { "title": "证实抗生素治疗石珊瑚组织缺失症的安全性" }, "ja": { "title": "石サンゴ組織欠損症に対する抗生物質治療の安全性が確認された" }, "zh-Hant": { "title": "證實抗生素治療石珊瑚組織缺失症的安全性" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-confirms-safety-1.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Safety of antibiotic treatment for stony coral tissue loss disease confirmed (phys.org)" }, { "title": "地球上最顽强的微生物或许能帮助拯救地球,并寻找其他星球上的生命", "summary": "Earth''s toughest microbes could help save the planet and find life on other worlds", "content_text": "Earth''s toughest microbes could help save the planet and find life on other worlds #cell #microbiology\n原文地址: https://phys.org/news/2026-03-earth-toughest-microbes-planet-life.html", "content_html": "
\"scx1.b-cdn.net
Earth''s toughest microbes could help save the planet and find life on other worlds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692963554/", "url": "https://phys.org/news/2026-03-earth-toughest-microbes-planet-life.html", "date_published": "2026-03-17T15:28:01.986Z", "date_modified": "2026-03-17T15:28:01.986Z", "_original_published": "2026-03-17T15:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Earth''s toughest microbes could help save the planet and find life on other worlds" }, "zh-Hans": { "title": "地球上最顽强的微生物或许能帮助拯救地球,并寻找其他星球上的生命" }, "ja": { "title": "地球上で最も強靭な微生物は、地球を救い、他の惑星で生命を発見する手助けとなるかもしれない" }, "zh-Hant": { "title": "地球上最頑強的微生物或許能幫助拯救地球,並尋找其他星球上的生命" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-earths-toughest-mi.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Earth''s toughest microbes could help save the planet and find life on other worlds (phys.org)" }, { "title": "战争威胁着海湾地区的儒艮、海龟和鸟类", "summary": "War threatens Gulf''s dugongs, turtles and birds", "content_text": "War threatens Gulf''s dugongs, turtles and birds #ecology\n原文地址: https://phys.org/news/2026-03-war-threatens-gulf-dugongs-turtles.html", "content_html": "
\"scx1.b-cdn.net
War threatens Gulf''s dugongs, turtles and birds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692964886/", "url": "https://phys.org/news/2026-03-war-threatens-gulf-dugongs-turtles.html", "date_published": "2026-03-17T15:28:01.982Z", "date_modified": "2026-03-17T15:28:01.982Z", "_original_published": "2026-03-17T15:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "War threatens Gulf''s dugongs, turtles and birds" }, "zh-Hans": { "title": "战争威胁着海湾地区的儒艮、海龟和鸟类" }, "ja": { "title": "戦争が湾岸地域のジュゴン、ウミガメ、そして鳥類を脅かしている" }, "zh-Hant": { "title": "戰爭威脅著海灣地區的儒艮、海龜和鳥類" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-persian-gulf-hosts.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-17  War threatens Gulf''s dugongs, turtles and birds (phys.org)" }, { "title": "研究发现,更温暖、更潮湿的气旋天气导致秘鲁登革热疫情规模扩大了10倍", "summary": "Warmer, wetter cyclone weather made Peru''s dengue outbreak 10 times larger, study finds", "content_text": "Warmer, wetter cyclone weather made Peru''s dengue outbreak 10 times larger, study finds #environment\n原文地址: https://phys.org/news/2026-03-warmer-wetter-cyclone-weather-peru.html", "content_html": "
\"scx1.b-cdn.net
Warmer, wetter cyclone weather made Peru''s dengue outbreak 10 times larger, study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692867488/", "url": "https://phys.org/news/2026-03-warmer-wetter-cyclone-weather-peru.html", "date_published": "2026-03-17T15:02:08.178Z", "date_modified": "2026-03-17T15:02:08.178Z", "_original_published": "2026-03-17T15:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Warmer, wetter cyclone weather made Peru''s dengue outbreak 10 times larger, study finds" }, "zh-Hans": { "title": "研究发现,更温暖、更潮湿的气旋天气导致秘鲁登革热疫情规模扩大了10倍" }, "ja": { "title": "研究によると、気温が高く湿度の高いサイクロンによる天候が、ペルーでのデング熱の流行規模を10倍に拡大させたことが判明した" }, "zh-Hant": { "title": "研究發現,更溫暖、更潮溼的氣旋天氣導致秘魯登革熱疫情規模擴大了10倍" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2021/tropical-cyclone.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-17  Warmer, wetter cyclone weather made Peru''s dengue outbreak 10 times larger, study finds (phys.org)" }, { "title": "计算生物学工具实现了基因组测序分析的自动化和标准化", "summary": "Computational bio tool automates and standardizes genome sequencing analysis", "content_text": "Computational bio tool automates and standardizes genome sequencing analysis #biotechnology\n原文地址: https://phys.org/news/2026-03-bio-tool-automates-standardizes-genome.html", "content_html": "
\"scx1.b-cdn.net
Computational bio tool automates and standardizes genome sequencing analysis (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692962321/", "url": "https://phys.org/news/2026-03-bio-tool-automates-standardizes-genome.html", "date_published": "2026-03-17T15:02:08.174Z", "date_modified": "2026-03-17T15:02:08.174Z", "_original_published": "2026-03-17T15:00:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Computational bio tool automates and standardizes genome sequencing analysis" }, "zh-Hans": { "title": "计算生物学工具实现了基因组测序分析的自动化和标准化" }, "ja": { "title": "計算生物学ツールがゲノムシーケンス解析を自動化・標準化する" }, "zh-Hant": { "title": "計算生物學工具實現了基因組測序分析的自動化和標準化" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-computational-biol.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-17  Computational bio tool automates and standardizes genome sequencing analysis (phys.org)" }, { "title": "植物种群如何保留过去的遗传记忆", "summary": "How plant populations keep a genetic memory of the past", "content_text": "How plant populations keep a genetic memory of the past #plants #animals\n原文地址: https://phys.org/news/2026-03-populations-genetic-memory.html", "content_html": "
\"scx1.b-cdn.net
How plant populations keep a genetic memory of the past (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692961661/", "url": "https://phys.org/news/2026-03-populations-genetic-memory.html", "date_published": "2026-03-17T14:40:06.279Z", "date_modified": "2026-03-17T14:40:06.279Z", "_original_published": "2026-03-17T14:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "How plant populations keep a genetic memory of the past" }, "zh-Hans": { "title": "植物种群如何保留过去的遗传记忆" }, "ja": { "title": "植物の個体群は、どのようにして過去の遺伝的記憶を保持しているのか" }, "zh-Hant": { "title": "植物種群如何保留過去的遺傳記憶" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-plant-populations.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  How plant populations keep a genetic memory of the past (phys.org)" }, { "title": "澳大利亚并不存在青少年犯罪问题——它面临的是青少年司法问题", "summary": "Australia doesn''t have a youth crime problem—it has a youth justice problem", "content_text": "Australia doesn''t have a youth crime problem—it has a youth justice problem #social #sciences\n原文地址: https://phys.org/news/2026-03-australia-doesnt-youth-crime-problem.html", "content_html": "
\"scx1.b-cdn.net
Australia doesn''t have a youth crime problem—it has a youth justice problem (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692959682/", "url": "https://phys.org/news/2026-03-australia-doesnt-youth-crime-problem.html", "date_published": "2026-03-17T13:53:39.392Z", "date_modified": "2026-03-17T13:53:39.392Z", "_original_published": "2026-03-17T13:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Australia doesn''t have a youth crime problem—it has a youth justice problem" }, "zh-Hans": { "title": "澳大利亚并不存在青少年犯罪问题——它面临的是青少年司法问题" }, "ja": { "title": "オーストラリアには青少年犯罪の問題はない――あるのは青少年司法の問題だ" }, "zh-Hant": { "title": "澳大利亞並不存在青少年犯罪問題——它面臨的是青少年司法問題" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/detention-center.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Australia doesn''t have a youth crime problem—it has a youth justice problem (phys.org)" }, { "title": "科学家证实,火龙果皮提取物能提升面包的营养价值并降低其升糖指数", "summary": "Scientists show dragon fruit peel extract boosts bread nutrition and lowers glycemic potential", "content_text": "Scientists show dragon fruit peel extract boosts bread nutrition and lowers glycemic potential #biotechnology\n原文地址: https://phys.org/news/2026-03-scientists-dragon-fruit-boosts-bread.html", "content_html": "
\"scx1.b-cdn.net
Scientists show dragon fruit peel extract boosts bread nutrition and lowers glycemic potential (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692958362/", "url": "https://phys.org/news/2026-03-scientists-dragon-fruit-boosts-bread.html", "date_published": "2026-03-17T13:44:30.049Z", "date_modified": "2026-03-17T13:44:30.049Z", "_original_published": "2026-03-17T13:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists show dragon fruit peel extract boosts bread nutrition and lowers glycemic potential" }, "zh-Hans": { "title": "科学家证实,火龙果皮提取物能提升面包的营养价值并降低其升糖指数" }, "ja": { "title": "科学者らが、ドラゴンフルーツの皮の抽出物がパンの栄養価を高め、血糖値上昇を抑制することを明らかにした" }, "zh-Hant": { "title": "科學家證實,火龍果皮提取物能提升麵包的營養價值並降低其升糖指數" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scientists-show-dragon.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-17  Scientists show dragon fruit peel extract boosts bread nutrition and lowers glycemic potential (phys.org)" }, { "title": "逆向设计:定制功能性聚合物的新途径", "summary": "Inverse design: A new pathway to custom functional polymers", "content_text": "Inverse design: A new pathway to custom functional polymers #polymers\n原文地址: https://phys.org/news/2026-03-inverse-pathway-custom-functional-polymers.html", "content_html": "
\"scx1.b-cdn.net
Inverse design: A new pathway to custom functional polymers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692956417/", "url": "https://phys.org/news/2026-03-inverse-pathway-custom-functional-polymers.html", "date_published": "2026-03-17T13:04:01.781Z", "date_modified": "2026-03-17T13:04:01.781Z", "_original_published": "2026-03-17T13:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Inverse design: A new pathway to custom functional polymers" }, "zh-Hans": { "title": "逆向设计:定制功能性聚合物的新途径" }, "ja": { "title": "逆設計:機能性ポリマーのカスタマイズに向けた新たなアプローチ" }, "zh-Hant": { "title": "逆向設計:定製功能性聚合物的新途徑" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/inverse-design-a-new-p.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "03-17  Inverse design: A new pathway to custom functional polymers (phys.org)" }, { "title": "研究人员发现,说实话与更理想的刑事司法结果存在关联", "summary": "Researcher finds that telling the truth is correlated with better criminal justice outcomes", "content_text": "Researcher finds that telling the truth is correlated with better criminal justice outcomes #social #sciences\n原文地址: https://phys.org/news/2026-03-truth-criminal-justice-outcomes.html", "content_html": "
\"scx1.b-cdn.net
Researcher finds that telling the truth is correlated with better criminal justice outcomes (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692956021/", "url": "https://phys.org/news/2026-03-truth-criminal-justice-outcomes.html", "date_published": "2026-03-17T13:04:01.777Z", "date_modified": "2026-03-17T13:04:01.777Z", "_original_published": "2026-03-17T12:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Researcher finds that telling the truth is correlated with better criminal justice outcomes" }, "zh-Hans": { "title": "研究人员发现,说实话与更理想的刑事司法结果存在关联" }, "ja": { "title": "ある研究者が、真実を話すことと刑事司法上のより良い結果との間に関連性があることを明らかにした" }, "zh-Hant": { "title": "研究人員發現,說實話與更理想的刑事司法結果存在關聯" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/truth.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Researcher finds that telling the truth is correlated with better criminal justice outcomes (phys.org)" }, { "title": "学生发现了一种新的螃蟹卵捕食者", "summary": "Students discover new crab egg predator", "content_text": "Students discover new crab egg predator #plants #animals\n原文地址: https://phys.org/news/2026-03-students-crab-egg-predator.html", "content_html": "
\"scx1.b-cdn.net
Students discover new crab egg predator (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692955481/", "url": "https://phys.org/news/2026-03-students-crab-egg-predator.html", "date_published": "2026-03-17T12:47:56.177Z", "date_modified": "2026-03-17T12:47:56.177Z", "_original_published": "2026-03-17T12:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Students discover new crab egg predator" }, "zh-Hans": { "title": "学生发现了一种新的螃蟹卵捕食者" }, "ja": { "title": "学生たちがカニの卵を捕食する新たな天敵を発見した" }, "zh-Hant": { "title": "學生髮現了一種新的螃蟹卵捕食者" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ucsb-students-discover-1.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Students discover new crab egg predator (phys.org)" }, { "title": "太阳能利用硫将聚苯乙烯废料转化为有价值的化学品", "summary": "Solar energy transforms polystyrene waste into valuable chemicals using sulfur", "content_text": "Solar energy transforms polystyrene waste into valuable chemicals using sulfur #polymers\n原文地址: https://phys.org/news/2026-03-solar-energy-polystyrene-valuable-chemicals.html", "content_html": "
\"scx1.b-cdn.net
Solar energy transforms polystyrene waste into valuable chemicals using sulfur (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692888889/", "url": "https://phys.org/news/2026-03-solar-energy-polystyrene-valuable-chemicals.html", "date_published": "2026-03-17T12:16:13.477Z", "date_modified": "2026-03-17T12:16:13.477Z", "_original_published": "2026-03-17T12:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Solar energy transforms polystyrene waste into valuable chemicals using sulfur" }, "zh-Hans": { "title": "太阳能利用硫将聚苯乙烯废料转化为有价值的化学品" }, "ja": { "title": "太陽エネルギーは、硫黄を利用してポリスチレン廃棄物を有用な化学物質に変換する" }, "zh-Hant": { "title": "太陽能利用硫將聚苯乙烯廢料轉化為有價值的化學品" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/solar-energy-transform.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "03-17  Solar energy transforms polystyrene waste into valuable chemicals using sulfur (phys.org)" }, { "title": "这种基于纳米技术的自旋电子器件可通过四种不同方式存储数据", "summary": "Nanoengineered spintronic device can store data in four different ways", "content_text": "Nanoengineered spintronic device can store data in four different ways #nanophysics\n原文地址: https://phys.org/news/2026-03-nanoengineered-spintronic-device-ways.html", "content_html": "
\"scx1.b-cdn.net
Nanoengineered spintronic device can store data in four different ways (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692889066/", "url": "https://phys.org/news/2026-03-nanoengineered-spintronic-device-ways.html", "date_published": "2026-03-17T11:30:17.541Z", "date_modified": "2026-03-17T11:30:17.541Z", "_original_published": "2026-03-17T11:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nanoengineered spintronic device can store data in four different ways" }, "zh-Hans": { "title": "这种基于纳米技术的自旋电子器件可通过四种不同方式存储数据" }, "ja": { "title": "ナノテクノロジーを応用したスピントロニクスデバイスは、4つの異なる方法でデータを保存できる" }, "zh-Hant": { "title": "這種基於納米技術的自旋電子器件可通過四種不同方式存儲數據" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-spintronic-device-th.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "03-17  Nanoengineered spintronic device can store data in four different ways (phys.org)" }, { "title": "大型撞击坑为小行星16号“普西克”的起源提供了线索", "summary": "Large craters offer clues to the origin of asteroid 16 Psyche", "content_text": "Large craters offer clues to the origin of asteroid 16 Psyche #astronomy\n原文地址: https://phys.org/news/2026-03-large-craters-clues-asteroid-psyche.html", "content_html": "
\"scx1.b-cdn.net
Large craters offer clues to the origin of asteroid 16 Psyche (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692946841/", "url": "https://phys.org/news/2026-03-large-craters-clues-asteroid-psyche.html", "date_published": "2026-03-17T11:09:18.241Z", "date_modified": "2026-03-17T11:09:18.241Z", "_original_published": "2026-03-17T11:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Large craters offer clues to the origin of asteroid 16 Psyche" }, "zh-Hans": { "title": "大型撞击坑为小行星16号“普西克”的起源提供了线索" }, "ja": { "title": "大きなクレーターは、小惑星16サイケの起源に関する手がかりを提供している" }, "zh-Hant": { "title": "大型撞擊坑為小行星16號“普西克”的起源提供了線索" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/large-craters-offer-cl.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  Large craters offer clues to the origin of asteroid 16 Psyche (phys.org)" }, { "title": "工程化脂质纳米颗粒通过重编程免疫代谢,提升mRNA疫苗的效能", "summary": "Engineered lipid nanoparticles reprogram immune metabolism for better mRNA vaccines", "content_text": "Engineered lipid nanoparticles reprogram immune metabolism for better mRNA vaccines #bio #medicine\n原文地址: https://phys.org/news/2026-03-lipid-nanoparticles-reprogram-immune-metabolism.html", "content_html": "
\"scx1.b-cdn.net
Engineered lipid nanoparticles reprogram immune metabolism for better mRNA vaccines (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692900401/", "url": "https://phys.org/news/2026-03-lipid-nanoparticles-reprogram-immune-metabolism.html", "date_published": "2026-03-17T10:08:07.119Z", "date_modified": "2026-03-17T10:08:07.119Z", "_original_published": "2026-03-17T10:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Engineered lipid nanoparticles reprogram immune metabolism for better mRNA vaccines" }, "zh-Hans": { "title": "工程化脂质纳米颗粒通过重编程免疫代谢,提升mRNA疫苗的效能" }, "ja": { "title": "設計された脂質ナノ粒子が免疫代謝を再プログラムし、mRNAワクチンの効果を高める" }, "zh-Hant": { "title": "工程化脂質納米顆粒通過重編程免疫代謝,提升mRNA疫苗的效能" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/engineered-lipid-nanop-3.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  Engineered lipid nanoparticles reprogram immune metabolism for better mRNA vaccines (phys.org)" }, { "title": "木炭记录揭示20世纪热带泥炭地曾发生“史无前例”的野火", "summary": "Charcoal records reveal ''unprecedented'' wildfires in tropical peatlands during 20th century", "content_text": "Charcoal records reveal ''unprecedented'' wildfires in tropical peatlands during 20th century #earth #sciences\n原文地址: https://phys.org/news/2026-03-charcoal-reveal-unprecedented-wildfires-tropical.html", "content_html": "
\"scx1.b-cdn.net
Charcoal records reveal ''unprecedented'' wildfires in tropical peatlands during 20th century (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692900581/", "url": "https://phys.org/news/2026-03-charcoal-reveal-unprecedented-wildfires-tropical.html", "date_published": "2026-03-17T09:04:24.275Z", "date_modified": "2026-03-17T09:04:24.275Z", "_original_published": "2026-03-17T09:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Charcoal records reveal ''unprecedented'' wildfires in tropical peatlands during 20th century" }, "zh-Hans": { "title": "木炭记录揭示20世纪热带泥炭地曾发生“史无前例”的野火" }, "ja": { "title": "木炭の記録から、20世紀の熱帯泥炭地で「かつてない」規模の山火事が発生していたことが明らかになった" }, "zh-Hant": { "title": "木炭記錄揭示20世紀熱帶泥炭地曾發生“史無前例”的野火" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/tropical-peatland.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Charcoal records reveal ''unprecedented'' wildfires in tropical peatlands during 20th century (phys.org)" }, { "title": "研究人员发现,恐龙孵化蛋的效率低于现代鸟类", "summary": "Dinos hatched eggs less efficiently than modern birds, researchers show", "content_text": "Dinos hatched eggs less efficiently than modern birds, researchers show #evolution\n原文地址: https://phys.org/news/2026-03-dinos-hatched-eggs-efficiently-modern.html", "content_html": "
\"scx1.b-cdn.net
Dinos hatched eggs less efficiently than modern birds, researchers show (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692871601/", "url": "https://phys.org/news/2026-03-dinos-hatched-eggs-efficiently-modern.html", "date_published": "2026-03-17T05:04:12.453Z", "date_modified": "2026-03-17T05:04:12.453Z", "_original_published": "2026-03-17T05:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Dinos hatched eggs less efficiently than modern birds, researchers show" }, "zh-Hans": { "title": "研究人员发现,恐龙孵化蛋的效率低于现代鸟类" }, "ja": { "title": "研究者らの研究によると、恐竜は現代の鳥類に比べて卵の孵化効率が低かったことが明らかになった" }, "zh-Hant": { "title": "研究人員發現,恐龍孵化蛋的效率低於現代鳥類" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-show-dinos.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-17  Dinos hatched eggs less efficiently than modern birds, researchers show (phys.org)" }, { "title": "现在是郊狼幼崽出生的季节;以下是您需要了解的内容", "summary": "It''s coyote puppy season; here''s what you need to know", "content_text": "It''s coyote puppy season; here''s what you need to know #plants #animals\n原文地址: https://phys.org/news/2026-03-coyote-puppy-season.html", "content_html": "
\"scx1.b-cdn.net
It''s coyote puppy season; here''s what you need to know (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692889328/", "url": "https://phys.org/news/2026-03-coyote-puppy-season.html", "date_published": "2026-03-17T02:56:06.124Z", "date_modified": "2026-03-17T02:56:06.124Z", "_original_published": "2026-03-17T02:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "It''s coyote puppy season; here''s what you need to know" }, "zh-Hans": { "title": "现在是郊狼幼崽出生的季节;以下是您需要了解的内容" }, "ja": { "title": "コヨーテの子犬が生まれる季節です。知っておくべきことをご紹介します" }, "zh-Hant": { "title": "現在是郊狼幼崽出生的季節;以下是您需要了解的內容" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/its-coyote-puppy-seaso.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  It''s coyote puppy season; here''s what you need to know (phys.org)" }, { "title": "碳交易比碳税更能有效减少排放", "summary": "Carbon trading cuts emissions better than carbon taxes", "content_text": "Carbon trading cuts emissions better than carbon taxes #economics #business\n原文地址: https://phys.org/news/2026-03-carbon-emissions-taxes.html", "content_html": "
\"scx1.b-cdn.net
Carbon trading cuts emissions better than carbon taxes (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692891728/", "url": "https://phys.org/news/2026-03-carbon-emissions-taxes.html", "date_published": "2026-03-17T02:24:10.769Z", "date_modified": "2026-03-17T02:24:10.769Z", "_original_published": "2026-03-17T02:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Carbon trading cuts emissions better than carbon taxes" }, "zh-Hans": { "title": "碳交易比碳税更能有效减少排放" }, "ja": { "title": "炭素取引は炭素税よりも効果的に排出量を削減できる" }, "zh-Hant": { "title": "碳交易比碳稅更能有效減少排放" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/carbon-trading-cuts-em-1.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "03-17  Carbon trading cuts emissions better than carbon taxes (phys.org)" }, { "title": "南极科学研究的一次里程碑式航行", "summary": "A milestone voyage for Antarctic science", "content_text": "A milestone voyage for Antarctic science #earth #sciences\n原文地址: https://phys.org/news/2026-03-milestone-voyage-antarctic-science.html", "content_html": "
\"scx1.b-cdn.net
A milestone voyage for Antarctic science (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692874130/", "url": "https://phys.org/news/2026-03-milestone-voyage-antarctic-science.html", "date_published": "2026-03-17T02:08:01.243Z", "date_modified": "2026-03-17T02:08:01.243Z", "_original_published": "2026-03-17T02:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "A milestone voyage for Antarctic science" }, "zh-Hans": { "title": "南极科学研究的一次里程碑式航行" }, "ja": { "title": "南極科学にとっての画期的な航海" }, "zh-Hant": { "title": "南極科學研究的一次里程碑式航行" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-milestone-voyage-for-2.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  A milestone voyage for Antarctic science (phys.org)" }, { "title": "关于月球磁层的60年之谜终于解开了", "summary": "A 60-year old mystery about the moon''s magnetosphere is finally solved", "content_text": "A 60-year old mystery about the moon''s magnetosphere is finally solved #planetary #sciences\n原文地址: https://phys.org/news/2026-03-year-mystery-moon-magnetosphere.html", "content_html": "
\"scx1.b-cdn.net
A 60-year old mystery about the moon''s magnetosphere is finally solved (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692889393/", "url": "https://phys.org/news/2026-03-year-mystery-moon-magnetosphere.html", "date_published": "2026-03-17T01:36:00.949Z", "date_modified": "2026-03-17T01:36:00.949Z", "_original_published": "2026-03-17T01:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "A 60-year old mystery about the moon''s magnetosphere is finally solved" }, "zh-Hans": { "title": "关于月球磁层的60年之谜终于解开了" }, "ja": { "title": "月の磁気圏をめぐる60年にわたる謎がついに解明された" }, "zh-Hant": { "title": "關於月球磁層的60年之謎終於解開了" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-60-year-old-mystery.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  A 60-year old mystery about the moon''s magnetosphere is finally solved (phys.org)" }, { "title": "Ticketmaster“Eras Tour”演唱会混乱局面因危机公关失误而进一步恶化", "summary": "Ticketmaster''s Eras Tour chaos made worse by crisis communication failures", "content_text": "Ticketmaster''s Eras Tour chaos made worse by crisis communication failures #economics #business\n原文地址: https://phys.org/news/2026-03-ticketmaster-eras-chaos-worse-crisis.html", "content_html": "
\"scx1.b-cdn.net
Ticketmaster''s Eras Tour chaos made worse by crisis communication failures (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692873899/", "url": "https://phys.org/news/2026-03-ticketmaster-eras-chaos-worse-crisis.html", "date_published": "2026-03-17T01:04:00.657Z", "date_modified": "2026-03-17T01:04:00.657Z", "_original_published": "2026-03-17T01:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ticketmaster''s Eras Tour chaos made worse by crisis communication failures" }, "zh-Hans": { "title": "Ticketmaster“Eras Tour”演唱会混乱局面因危机公关失误而进一步恶化" }, "ja": { "title": "チケットマスターの「Eras Tour」をめぐる混乱は、危機管理コミュニケーションの失敗によってさらに悪化した" }, "zh-Hant": { "title": "Ticketmaster“Eras Tour”演唱會混亂局面因危機公關失誤而進一步惡化" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ticketmasters-eras-tou.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "03-17  Ticketmaster''s Eras Tour chaos made worse by crisis communication failures (phys.org)" }, { "title": "玉米之谜:科学家揭示了关于玉米DNA作用机制的新发现", "summary": "Maize mysteries: Scientists uncover new information on how DNA works in maize", "content_text": "Maize mysteries: Scientists uncover new information on how DNA works in maize #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-maize-mysteries-scientists-uncover-dna.html", "content_html": "
\"scx1.b-cdn.net
Maize mysteries: Scientists uncover new information on how DNA works in maize (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692873784/", "url": "https://phys.org/news/2026-03-maize-mysteries-scientists-uncover-dna.html", "date_published": "2026-03-17T00:47:51.377Z", "date_modified": "2026-03-17T00:47:51.377Z", "_original_published": "2026-03-17T00:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Maize mysteries: Scientists uncover new information on how DNA works in maize" }, "zh-Hans": { "title": "玉米之谜:科学家揭示了关于玉米DNA作用机制的新发现" }, "ja": { "title": "トウモロコシの謎:科学者たちがトウモロコシのDNAの働きに関する新たな事実を解明" }, "zh-Hant": { "title": "玉米之謎:科學家揭示了關於玉米DNA作用機制的新發現" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/maize-mysteries-scient.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-17  Maize mysteries: Scientists uncover new information on how DNA works in maize (phys.org)" }, { "title": "糖分解为何不仅关乎能量——关于其如何驱动细胞运动的新见解", "summary": "Why sugar breakdown matters beyond energy—new insights into how it makes cells move", "content_text": "Why sugar breakdown matters beyond energy—new insights into how it makes cells move #cell #microbiology\n原文地址: https://phys.org/news/2026-03-sugar-breakdown-energy-insights-cells.html", "content_html": "
\"scx1.b-cdn.net
Why sugar breakdown matters beyond energy—new insights into how it makes cells move (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_17__news692899321/", "url": "https://phys.org/news/2026-03-sugar-breakdown-energy-insights-cells.html", "date_published": "2026-03-17T00:00:12.574Z", "date_modified": "2026-03-17T00:00:12.574Z", "_original_published": "2026-03-16T23:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why sugar breakdown matters beyond energy—new insights into how it makes cells move" }, "zh-Hans": { "title": "糖分解为何不仅关乎能量——关于其如何驱动细胞运动的新见解" }, "ja": { "title": "糖の分解がエネルギー供給以上の意義を持つ理由――細胞の運動を促進するメカニズムに関する新たな知見" }, "zh-Hant": { "title": "糖分解為何不僅關乎能量——關於其如何驅動細胞運動的新見解" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sugar-does-not-only-pr.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Why sugar breakdown matters beyond energy—new insights into how it makes cells move (phys.org)" }, { "title": "研究揭示了科罗拉多州马铃薯干腐病的成因", "summary": "Study identifies causes of potato dry rot in Colorado", "content_text": "Study identifies causes of potato dry rot in Colorado #plants #animals\n原文地址: https://phys.org/news/2026-03-potato-dry-colorado.html", "content_html": "
\"scx1.b-cdn.net
Study identifies causes of potato dry rot in Colorado (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895606/", "url": "https://phys.org/news/2026-03-potato-dry-colorado.html", "date_published": "2026-03-16T23:43:51.705Z", "date_modified": "2026-03-16T23:43:51.705Z", "_original_published": "2026-03-16T23:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Study identifies causes of potato dry rot in Colorado" }, "zh-Hans": { "title": "研究揭示了科罗拉多州马铃薯干腐病的成因" }, "ja": { "title": "研究により、コロラド州におけるジャガイモの乾腐病の原因が特定された" }, "zh-Hant": { "title": "研究揭示了科羅拉多州馬鈴薯幹腐病的成因" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-identifies-cause.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Study identifies causes of potato dry rot in Colorado (phys.org)" }, { "title": "高分辨率电子显微镜揭示了细胞对压力的反应", "summary": "High-resolution electron microscopy sheds light on the cellular responses to stress", "content_text": "High-resolution electron microscopy sheds light on the cellular responses to stress #cell #microbiology\n原文地址: https://phys.org/news/2026-03-high-resolution-electron-microscopy-cellular.html", "content_html": "
\"scx1.b-cdn.net
High-resolution electron microscopy sheds light on the cellular responses to stress (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895241/", "url": "https://phys.org/news/2026-03-high-resolution-electron-microscopy-cellular.html", "date_published": "2026-03-16T23:43:51.701Z", "date_modified": "2026-03-16T23:43:51.701Z", "_original_published": "2026-03-16T23:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "High-resolution electron microscopy sheds light on the cellular responses to stress" }, "zh-Hans": { "title": "高分辨率电子显微镜揭示了细胞对压力的反应" }, "ja": { "title": "高分解能電子顕微鏡が、ストレスに対する細胞の反応を解明する" }, "zh-Hant": { "title": "高分辨率電子顯微鏡揭示了細胞對壓力的反應" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/high-resolution-electr-1.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  High-resolution electron microscopy sheds light on the cellular responses to stress (phys.org)" }, { "title": "基于聚类的AI仅利用少量长期记录即可预测河流水位", "summary": "Clustering-based AI forecasts river water levels using just a few long records", "content_text": "Clustering-based AI forecasts river water levels using just a few long records #earth #sciences\n原文地址: https://phys.org/news/2026-03-clustering-based-ai-river.html", "content_html": "
\"scx1.b-cdn.net
Clustering-based AI forecasts river water levels using just a few long records (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692867542/", "url": "https://phys.org/news/2026-03-clustering-based-ai-river.html", "date_published": "2026-03-16T23:43:51.698Z", "date_modified": "2026-03-16T23:43:51.698Z", "_original_published": "2026-03-16T23:30:08.000Z", "_original_language": "en", "_translations": { "en": { "title": "Clustering-based AI forecasts river water levels using just a few long records" }, "zh-Hans": { "title": "基于聚类的AI仅利用少量长期记录即可预测河流水位" }, "ja": { "title": "クラスタリングに基づくAIは、ごく少数の長期データを用いて河川の水位を予測する" }, "zh-Hant": { "title": "基於聚類的AI僅利用少量長期記錄即可預測河流水位" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/reservoir.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Clustering-based AI forecasts river water levels using just a few long records (phys.org)" }, { "title": "亚马逊巧克力:通过将可可克隆品种与不同的采后处理工艺相结合,实现了风味与营养价值的平衡", "summary": "Amazonian chocolate: Combining cocoa clones with different post-harvest processes balances flavor and nutritional value", "content_text": "Amazonian chocolate: Combining cocoa clones with different post-harvest processes balances flavor and nutritional value #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-amazonian-chocolate-combining-cocoa-clones.html", "content_html": "
\"scx1.b-cdn.net
Amazonian chocolate: Combining cocoa clones with different post-harvest processes balances flavor and nutritional value (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692898842/", "url": "https://phys.org/news/2026-03-amazonian-chocolate-combining-cocoa-clones.html", "date_published": "2026-03-16T23:43:51.694Z", "date_modified": "2026-03-16T23:43:51.694Z", "_original_published": "2026-03-16T23:30:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Amazonian chocolate: Combining cocoa clones with different post-harvest processes balances flavor and nutritional value" }, "zh-Hans": { "title": "亚马逊巧克力:通过将可可克隆品种与不同的采后处理工艺相结合,实现了风味与营养价值的平衡" }, "ja": { "title": "アマゾンのチョコレート:異なるカカオのクローンと収穫後の加工法を組み合わせることで、風味と栄養価のバランスを実現" }, "zh-Hant": { "title": "亞馬遜巧克力:通過將可可克隆品種與不同的採後處理工藝相結合,實現了風味與營養價值的平衡" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-combine-fl.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-17  Amazonian chocolate: Combining cocoa clones with different post-harvest processes balances flavor and nutritional value (phys.org)" }, { "title": "源自牛奶的纳米颗粒或可帮助医生精准治疗侵袭性胆管癌", "summary": "Milk-derived nanoparticles may enable physicians to target aggressive bile duct cancer", "content_text": "Milk-derived nanoparticles may enable physicians to target aggressive bile duct cancer #bio #medicine\n原文地址: https://phys.org/news/2026-03-derived-nanoparticles-enable-physicians-aggressive.html", "content_html": "
\"scx1.b-cdn.net
Milk-derived nanoparticles may enable physicians to target aggressive bile duct cancer (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692894521/", "url": "https://phys.org/news/2026-03-derived-nanoparticles-enable-physicians-aggressive.html", "date_published": "2026-03-16T23:27:50.326Z", "date_modified": "2026-03-16T23:27:50.326Z", "_original_published": "2026-03-16T23:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Milk-derived nanoparticles may enable physicians to target aggressive bile duct cancer" }, "zh-Hans": { "title": "源自牛奶的纳米颗粒或可帮助医生精准治疗侵袭性胆管癌" }, "ja": { "title": "牛乳由来のナノ粒子により、医師は進行性の胆管がんを標的とした治療が可能になるかもしれない" }, "zh-Hant": { "title": "源自牛奶的納米顆粒或可幫助醫生精準治療侵襲性膽管癌" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/mayo-clinic-researcher-1.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  Milk-derived nanoparticles may enable physicians to target aggressive bile duct cancer (phys.org)" }, { "title": "研究表明,公牛鲨会与特定的“朋友”建立社交关系", "summary": "Bull sharks form social relationships with specific ''friends,'' research reveals", "content_text": "Bull sharks form social relationships with specific ''friends,'' research reveals #plants #animals\n原文地址: https://phys.org/news/2026-03-bull-sharks-social-relationships-specific.html", "content_html": "
\"scx1.b-cdn.net
Bull sharks form social relationships with specific ''friends,'' research reveals (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692871781/", "url": "https://phys.org/news/2026-03-bull-sharks-social-relationships-specific.html", "date_published": "2026-03-16T23:11:57.545Z", "date_modified": "2026-03-16T23:11:57.545Z", "_original_published": "2026-03-16T23:10:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bull sharks form social relationships with specific ''friends,'' research reveals" }, "zh-Hans": { "title": "研究表明,公牛鲨会与特定的“朋友”建立社交关系" }, "ja": { "title": "研究によると、オオメジロザメは特定の「仲間」と社会的関係を築くことが明らかになった" }, "zh-Hant": { "title": "研究表明,公牛鯊會與特定的“朋友”建立社交關係" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/bull-sharks-have-frien.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Bull sharks form social relationships with specific ''friends,'' research reveals (phys.org)" }, { "title": "问答:重新评估反应速率,以更好地了解恒星", "summary": "Q&A: Reevaluating reaction rates to better understand the stars", "content_text": "Q&A: Reevaluating reaction rates to better understand the stars #astronomy\n原文地址: https://phys.org/news/2026-03-qa-reevaluating-reaction-stars.html", "content_html": "
\"scx1.b-cdn.net
Q&A: Reevaluating reaction rates to better understand the stars (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692898181/", "url": "https://phys.org/news/2026-03-qa-reevaluating-reaction-stars.html", "date_published": "2026-03-16T23:11:57.542Z", "date_modified": "2026-03-16T23:11:57.542Z", "_original_published": "2026-03-16T23:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Q&A: Reevaluating reaction rates to better understand the stars" }, "zh-Hans": { "title": "问答:重新评估反应速率,以更好地了解恒星" }, "ja": { "title": "Q&A:星をより深く理解するために反応速度を再評価する" }, "zh-Hant": { "title": "問答:重新評估反應速率,以更好地瞭解恆星" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/reevaluating-reaction.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  Q&A: Reevaluating reaction rates to better understand the stars (phys.org)" }, { "title": "生命,但并非我们所熟知的那样", "summary": "Life, but not as we know it", "content_text": "Life, but not as we know it #astrobiology\n原文地址: https://phys.org/news/2026-03-life.html", "content_html": "
\"scx1.b-cdn.net
Life, but not as we know it (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692879734/", "url": "https://phys.org/news/2026-03-life.html", "date_published": "2026-03-16T23:11:57.538Z", "date_modified": "2026-03-16T23:11:57.538Z", "_original_published": "2026-03-16T23:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Life, but not as we know it" }, "zh-Hans": { "title": "生命,但并非我们所熟知的那样" }, "ja": { "title": "生命――しかし、私たちが知っているようなものではない" }, "zh-Hant": { "title": "生命,但並非我們所熟知的那樣" } }, "tags": [ "Astrobiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/life-but-not-as-we-kno.jpg", "_tag_links": [ { "name": "Astrobiology", "url": "https://i.buzzing.cc/phys/tags/astrobiology/" } ], "_lite_content_html": "03-17  Life, but not as we know it (phys.org)" }, { "title": "构建光梳的清晰路线图", "summary": "A clear roadmap for engineering combs of light", "content_text": "A clear roadmap for engineering combs of light #optics #photonics\n原文地址: https://phys.org/news/2026-03-roadmap.html", "content_html": "
\"scx1.b-cdn.net
A clear roadmap for engineering combs of light (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692898001/", "url": "https://phys.org/news/2026-03-roadmap.html", "date_published": "2026-03-16T22:55:50.709Z", "date_modified": "2026-03-16T22:55:50.709Z", "_original_published": "2026-03-16T22:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "A clear roadmap for engineering combs of light" }, "zh-Hans": { "title": "构建光梳的清晰路线图" }, "ja": { "title": "光の櫛を設計するための明確なロードマップ" }, "zh-Hant": { "title": "構建光梳的清晰路線圖" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-clear-roadmap-for-en.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03-17  A clear roadmap for engineering combs of light (phys.org)" }, { "title": "詹姆斯·韦伯太空望远镜绘制了塔拉区以外的欧罗巴二氧化碳分布图,暗示了地下物质的交换", "summary": "JWST maps Europa''s CO₂ beyond Tara Regio, hinting at subsurface exchange", "content_text": "JWST maps Europa''s CO₂ beyond Tara Regio, hinting at subsurface exchange #astrobiology\n原文地址: https://phys.org/news/2026-03-jwst-europa-tara-regio-hinting.html", "content_html": "
\"scx1.b-cdn.net
JWST maps Europa''s CO₂ beyond Tara Regio, hinting at subsurface exchange (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692873691/", "url": "https://phys.org/news/2026-03-jwst-europa-tara-regio-hinting.html", "date_published": "2026-03-16T22:55:50.705Z", "date_modified": "2026-03-16T22:55:50.705Z", "_original_published": "2026-03-16T22:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "JWST maps Europa''s CO₂ beyond Tara Regio, hinting at subsurface exchange" }, "zh-Hans": { "title": "詹姆斯·韦伯太空望远镜绘制了塔拉区以外的欧罗巴二氧化碳分布图,暗示了地下物质的交换" }, "ja": { "title": "JWSTがタラ・レギオの域外におけるエウロパの二酸化炭素分布を明らかにし、地下との物質交換を示唆" }, "zh-Hant": { "title": "詹姆斯·韋伯太空望遠鏡繪製了塔拉區以外的歐羅巴二氧化碳分佈圖,暗示了地下物質的交換" } }, "tags": [ "Astrobiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/reading-europas-finger.jpg", "_tag_links": [ { "name": "Astrobiology", "url": "https://i.buzzing.cc/phys/tags/astrobiology/" } ], "_lite_content_html": "03-17  JWST maps Europa''s CO₂ beyond Tara Regio, hinting at subsurface exchange (phys.org)" }, { "title": "邻近的一个星系正在发生变化,天文学家能够目睹这一过程", "summary": "A galaxy next door is transforming, and astronomers can see it happening", "content_text": "A galaxy next door is transforming, and astronomers can see it happening #astronomy\n原文地址: https://phys.org/news/2026-03-galaxy-door-astronomers.html", "content_html": "
\"scx1.b-cdn.net
A galaxy next door is transforming, and astronomers can see it happening (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692897941/", "url": "https://phys.org/news/2026-03-galaxy-door-astronomers.html", "date_published": "2026-03-16T22:40:00.437Z", "date_modified": "2026-03-16T22:40:00.437Z", "_original_published": "2026-03-16T22:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "A galaxy next door is transforming, and astronomers can see it happening" }, "zh-Hans": { "title": "邻近的一个星系正在发生变化,天文学家能够目睹这一过程" }, "ja": { "title": "すぐ隣にある銀河が変化を遂げており、天文学者たちはその様子を目の当たりにしている" }, "zh-Hant": { "title": "鄰近的一個星系正在發生變化,天文學家能夠目睹這一過程" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-galaxy-next-door-is-1.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  A galaxy next door is transforming, and astronomers can see it happening (phys.org)" }, { "title": "气候行动有望避免超过1300万人过早死亡,但公平性选择对全球健康至关重要", "summary": "Climate action could prevent over 13 million premature deaths, but equity choices matter for global health", "content_text": "Climate action could prevent over 13 million premature deaths, but equity choices matter for global health #environment\n原文地址: https://phys.org/news/2026-03-climate-action-million-premature-deaths.html", "content_html": "
\"scx1.b-cdn.net
Climate action could prevent over 13 million premature deaths, but equity choices matter for global health (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692881022/", "url": "https://phys.org/news/2026-03-climate-action-million-premature-deaths.html", "date_published": "2026-03-16T22:40:00.433Z", "date_modified": "2026-03-16T22:40:00.433Z", "_original_published": "2026-03-16T22:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Climate action could prevent over 13 million premature deaths, but equity choices matter for global health" }, "zh-Hans": { "title": "气候行动有望避免超过1300万人过早死亡,但公平性选择对全球健康至关重要" }, "ja": { "title": "気候変動対策により1,300万人以上の早期死亡を防ぐことができるが、世界の健康のためには公平性を重視した選択が重要である" }, "zh-Hant": { "title": "氣候行動有望避免超過1300萬人過早死亡,但公平性選擇對全球健康至關重要" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/climate-action.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-17  Climate action could prevent over 13 million premature deaths, but equity choices matter for global health (phys.org)" }, { "title": "首次利用圆偏振光观测到激光辅助电子散射现象", "summary": "Laser-assisted electron scattering seen with circularly polarized light for the first time", "content_text": "Laser-assisted electron scattering seen with circularly polarized light for the first time #condensed #matter\n原文地址: https://phys.org/news/2026-03-laser-electron-circularly-polarized.html", "content_html": "
\"scx1.b-cdn.net
Laser-assisted electron scattering seen with circularly polarized light for the first time (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692890621/", "url": "https://phys.org/news/2026-03-laser-electron-circularly-polarized.html", "date_published": "2026-03-16T22:24:02.532Z", "date_modified": "2026-03-16T22:24:02.532Z", "_original_published": "2026-03-16T22:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Laser-assisted electron scattering seen with circularly polarized light for the first time" }, "zh-Hans": { "title": "首次利用圆偏振光观测到激光辅助电子散射现象" }, "ja": { "title": "円偏光を用いたレーザー誘起電子散乱が初めて観測された" }, "zh-Hant": { "title": "首次利用圓偏振光觀測到激光輔助電子散射現象" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/tools-to-glimpse-how-h.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-17  Laser-assisted electron scattering seen with circularly polarized light for the first time (phys.org)" }, { "title": "一项新研究揭示了绵羊组织特异性基因调控的机制", "summary": "New study offers insight into tissue-specific gene regulation of sheep", "content_text": "New study offers insight into tissue-specific gene regulation of sheep #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-insight-tissue-specific-gene-sheep.html", "content_html": "
\"scx1.b-cdn.net
New study offers insight into tissue-specific gene regulation of sheep (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692897701/", "url": "https://phys.org/news/2026-03-insight-tissue-specific-gene-sheep.html", "date_published": "2026-03-16T22:24:02.528Z", "date_modified": "2026-03-16T22:24:02.528Z", "_original_published": "2026-03-16T22:10:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "New study offers insight into tissue-specific gene regulation of sheep" }, "zh-Hans": { "title": "一项新研究揭示了绵羊组织特异性基因调控的机制" }, "ja": { "title": "新たな研究により、羊の組織特異的な遺伝子発現制御に関する知見が得られた" }, "zh-Hant": { "title": "一項新研究揭示了綿羊組織特異性基因調控的機制" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-study-offers-insig-1.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-17  New study offers insight into tissue-specific gene regulation of sheep (phys.org)" }, { "title": "你在学校所学的知识会影响你成年后的投票选择", "summary": "What you study in school shapes your voting choices in adulthood", "content_text": "What you study in school shapes your voting choices in adulthood #political #science\n原文地址: https://phys.org/news/2026-03-school-voting-choices-adulthood.html", "content_html": "
\"scx1.b-cdn.net
What you study in school shapes your voting choices in adulthood (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692876985/", "url": "https://phys.org/news/2026-03-school-voting-choices-adulthood.html", "date_published": "2026-03-16T22:24:02.524Z", "date_modified": "2026-03-16T22:24:02.524Z", "_original_published": "2026-03-16T22:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "What you study in school shapes your voting choices in adulthood" }, "zh-Hans": { "title": "你在学校所学的知识会影响你成年后的投票选择" }, "ja": { "title": "学校で学ぶことは、大人になってからの投票行動に影響を与える" }, "zh-Hant": { "title": "你在學校所學的知識會影響你成年後的投票選擇" } }, "tags": [ "Political", "science" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/map-globe.jpg", "_tag_links": [ { "name": "Political", "url": "https://i.buzzing.cc/phys/tags/political/" }, { "name": "science", "url": "https://i.buzzing.cc/phys/tags/science/" } ], "_lite_content_html": "03-17  What you study in school shapes your voting choices in adulthood (phys.org)" }, { "title": "南极洲的微生物依靠空气维持生命,从而在严寒而黑暗的冬季中生存下来", "summary": "Microbes in Antarctica survive the freezing and dark winter by living on air", "content_text": "Microbes in Antarctica survive the freezing and dark winter by living on air #ecology\n原文地址: https://phys.org/news/2026-03-microbes-antarctica-survive-dark-winter.html", "content_html": "
\"scx1.b-cdn.net
Microbes in Antarctica survive the freezing and dark winter by living on air (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692878289/", "url": "https://phys.org/news/2026-03-microbes-antarctica-survive-dark-winter.html", "date_published": "2026-03-16T22:08:02.165Z", "date_modified": "2026-03-16T22:08:02.165Z", "_original_published": "2026-03-16T22:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Microbes in Antarctica survive the freezing and dark winter by living on air" }, "zh-Hans": { "title": "南极洲的微生物依靠空气维持生命,从而在严寒而黑暗的冬季中生存下来" }, "ja": { "title": "南極の微生物は、空気中の物質を栄養源として、凍てつく暗闇の冬を生き延びている" }, "zh-Hant": { "title": "南極洲的微生物依靠空氣維持生命,從而在嚴寒而黑暗的冬季中生存下來" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2023/antarctica.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-17  Microbes in Antarctica survive the freezing and dark winter by living on air (phys.org)" }, { "title": "光控水凝胶模拟人体软组织,助力更逼真的细胞研究", "summary": "Light-controlled hydrogel mimics soft human tissue for more realistic cell studies", "content_text": "Light-controlled hydrogel mimics soft human tissue for more realistic cell studies #cell #microbiology\n原文地址: https://phys.org/news/2026-03-hydrogel-mimics-soft-human-tissue.html", "content_html": "
\"scx1.b-cdn.net
Light-controlled hydrogel mimics soft human tissue for more realistic cell studies (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692899741/", "url": "https://phys.org/news/2026-03-hydrogel-mimics-soft-human-tissue.html", "date_published": "2026-03-16T21:52:01.270Z", "date_modified": "2026-03-16T21:52:01.270Z", "_original_published": "2026-03-16T21:50:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Light-controlled hydrogel mimics soft human tissue for more realistic cell studies" }, "zh-Hans": { "title": "光控水凝胶模拟人体软组织,助力更逼真的细胞研究" }, "ja": { "title": "光制御型ハイドロゲルが人間の軟組織を模倣し、より現実的な細胞研究を実現" }, "zh-Hant": { "title": "光控水凝膠模擬人體軟組織,助力更逼真的細胞研究" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-hydrogel-platform.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Light-controlled hydrogel mimics soft human tissue for more realistic cell studies (phys.org)" }, { "title": "金纳米簇能够选择性地识别手性生物分子,从而有助于检测某些疾病", "summary": "Gold nanoclusters could selectively recognize chiral biomolecules to help detect certain diseases", "content_text": "Gold nanoclusters could selectively recognize chiral biomolecules to help detect certain diseases #bio #medicine\n原文地址: https://phys.org/news/2026-03-gold-nanoclusters-chiral-biomolecules-diseases.html", "content_html": "
\"scx1.b-cdn.net
Gold nanoclusters could selectively recognize chiral biomolecules to help detect certain diseases (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692897041/", "url": "https://phys.org/news/2026-03-gold-nanoclusters-chiral-biomolecules-diseases.html", "date_published": "2026-03-16T21:52:01.266Z", "date_modified": "2026-03-16T21:52:01.266Z", "_original_published": "2026-03-16T21:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Gold nanoclusters could selectively recognize chiral biomolecules to help detect certain diseases" }, "zh-Hans": { "title": "金纳米簇能够选择性地识别手性生物分子,从而有助于检测某些疾病" }, "ja": { "title": "金ナノクラスターは、キラルな生体分子を選択的に認識し、特定の疾患の検出に役立つ可能性がある" }, "zh-Hant": { "title": "金納米簇能夠選擇性地識別手性生物分子,從而有助於檢測某些疾病" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/gold-nanoclusters-help.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  Gold nanoclusters could selectively recognize chiral biomolecules to help detect certain diseases (phys.org)" }, { "title": "微小工具,精准定位:纳米抗体精准打击肿瘤", "summary": "Tiny tools, sharp aim: Nanobodies target tumors with precision", "content_text": "Tiny tools, sharp aim: Nanobodies target tumors with precision #bio #medicine\n原文地址: https://phys.org/news/2026-03-tiny-tools-sharp-aim-nanobodies.html", "content_html": "
\"scx1.b-cdn.net
Tiny tools, sharp aim: Nanobodies target tumors with precision (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692873685/", "url": "https://phys.org/news/2026-03-tiny-tools-sharp-aim-nanobodies.html", "date_published": "2026-03-16T21:52:01.262Z", "date_modified": "2026-03-16T21:52:01.262Z", "_original_published": "2026-03-16T21:40:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Tiny tools, sharp aim: Nanobodies target tumors with precision" }, "zh-Hans": { "title": "微小工具,精准定位:纳米抗体精准打击肿瘤" }, "ja": { "title": "小さなツール、鋭い狙い:ナノボディが腫瘍を精密に標的とする" }, "zh-Hant": { "title": "微小工具,精準定位:納米抗體精準打擊腫瘤" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/tiny-tools-sharp-aim-n.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  Tiny tools, sharp aim: Nanobodies target tumors with precision (phys.org)" }, { "title": "不仅仅是自旋——电子轨道或可为调控磁性提供新方法", "summary": "Not just spin—electron orbitals can provide new method for controlling magnetism", "content_text": "Not just spin—electron orbitals can provide new method for controlling magnetism #condensed #matter\n原文地址: https://phys.org/news/2026-03-electron-orbitals-method-magnetism.html", "content_html": "
\"scx1.b-cdn.net
Not just spin—electron orbitals can provide new method for controlling magnetism (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692890029/", "url": "https://phys.org/news/2026-03-electron-orbitals-method-magnetism.html", "date_published": "2026-03-16T21:52:01.259Z", "date_modified": "2026-03-16T21:52:01.259Z", "_original_published": "2026-03-16T21:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Not just spin—electron orbitals can provide new method for controlling magnetism" }, "zh-Hans": { "title": "不仅仅是自旋——电子轨道或可为调控磁性提供新方法" }, "ja": { "title": "単なるスピンにとどまらない――電子軌道が磁性を制御する新たな手法をもたらす" }, "zh-Hant": { "title": "不僅僅是自旋——電子軌道或可為調控磁性提供新方法" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/research-team-proposes.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-17  Not just spin—electron orbitals can provide new method for controlling magnetism (phys.org)" }, { "title": "个人改变的临界点或许能解释为何广受欢迎的政策难以推广", "summary": "Personal change thresholds may explain why popular policies fail to spread", "content_text": "Personal change thresholds may explain why popular policies fail to spread #social #sciences\n原文地址: https://phys.org/news/2026-03-personal-thresholds-popular-policies.html", "content_html": "
\"scx1.b-cdn.net
Personal change thresholds may explain why popular policies fail to spread (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692899561/", "url": "https://phys.org/news/2026-03-personal-thresholds-popular-policies.html", "date_published": "2026-03-16T21:36:01.381Z", "date_modified": "2026-03-16T21:36:01.381Z", "_original_published": "2026-03-16T21:30:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Personal change thresholds may explain why popular policies fail to spread" }, "zh-Hans": { "title": "个人改变的临界点或许能解释为何广受欢迎的政策难以推广" }, "ja": { "title": "個人の変化に対する閾値が、なぜ人気のある政策が広まらないのかを説明できるかもしれない" }, "zh-Hant": { "title": "個人改變的臨界點或許能解釋為何廣受歡迎的政策難以推廣" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/change.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Personal change thresholds may explain why popular policies fail to spread (phys.org)" }, { "title": "结构建模揭示了能够操纵细菌免疫信号传导的噬菌体蛋白", "summary": "Structural modeling reveals phage proteins that manipulate bacterial immune signaling", "content_text": "Structural modeling reveals phage proteins that manipulate bacterial immune signaling #cell #microbiology\n原文地址: https://phys.org/news/2026-03-reveals-phage-proteins-bacterial-immune.html", "content_html": "
\"scx1.b-cdn.net
Structural modeling reveals phage proteins that manipulate bacterial immune signaling (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692896801/", "url": "https://phys.org/news/2026-03-reveals-phage-proteins-bacterial-immune.html", "date_published": "2026-03-16T21:36:01.377Z", "date_modified": "2026-03-16T21:36:01.377Z", "_original_published": "2026-03-16T21:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Structural modeling reveals phage proteins that manipulate bacterial immune signaling" }, "zh-Hans": { "title": "结构建模揭示了能够操纵细菌免疫信号传导的噬菌体蛋白" }, "ja": { "title": "構造解析により、細菌の免疫シグナル伝達を操作するファージタンパク質が明らかになった" }, "zh-Hant": { "title": "結構建模揭示了能夠操縱細菌免疫信號傳導的噬菌體蛋白" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/structural-modeling-re.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Structural modeling reveals phage proteins that manipulate bacterial immune signaling (phys.org)" }, { "title": "研究表明,造林项目的选址对气候的影响大于种植树木的数量", "summary": "Location of reforestation projects has greater effect on climate than number of trees planted, study shows", "content_text": "Location of reforestation projects has greater effect on climate than number of trees planted, study shows #environment\n原文地址: https://phys.org/news/2026-03-reforestation-greater-effect-climate-trees.html", "content_html": "
\"scx1.b-cdn.net
Location of reforestation projects has greater effect on climate than number of trees planted, study shows (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692889901/", "url": "https://phys.org/news/2026-03-reforestation-greater-effect-climate-trees.html", "date_published": "2026-03-16T21:36:01.373Z", "date_modified": "2026-03-16T21:36:01.373Z", "_original_published": "2026-03-16T21:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Location of reforestation projects has greater effect on climate than number of trees planted, study shows" }, "zh-Hans": { "title": "研究表明,造林项目的选址对气候的影响大于种植树木的数量" }, "ja": { "title": "研究によると、植林プロジェクトの実施場所は、植樹本数よりも気候に大きな影響を与えることが明らかになった" }, "zh-Hant": { "title": "研究表明,造林項目的選址對氣候的影響大於種植樹木的數量" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/not-every-forest-cools.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-17  Location of reforestation projects has greater effect on climate than number of trees planted, study shows (phys.org)" }, { "title": "为何某些金属会变得透明:触摸屏导电层的关键机制", "summary": "Why some metals turn transparent: A key mechanism for touchscreen conductors", "content_text": "Why some metals turn transparent: A key mechanism for touchscreen conductors #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-metals-transparent-key-mechanism-touchscreen.html", "content_html": "
\"scx1.b-cdn.net
Why some metals turn transparent: A key mechanism for touchscreen conductors (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692896034/", "url": "https://phys.org/news/2026-03-metals-transparent-key-mechanism-touchscreen.html", "date_published": "2026-03-16T21:04:04.788Z", "date_modified": "2026-03-16T21:04:04.788Z", "_original_published": "2026-03-16T21:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why some metals turn transparent: A key mechanism for touchscreen conductors" }, "zh-Hans": { "title": "为何某些金属会变得透明:触摸屏导电层的关键机制" }, "ja": { "title": "なぜ一部の金属は透明になるのか:タッチスクリーン用導体の重要なメカニズム" }, "zh-Hant": { "title": "為何某些金屬會變得透明:觸摸屏導電層的關鍵機制" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/touchscreen-1.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-17  Why some metals turn transparent: A key mechanism for touchscreen conductors (phys.org)" }, { "title": "青蛙细胞“神经机器人”能生长出自组织的神经系统并改变基因活性", "summary": "Frog-cell ''neurobots'' grow self-organized nervous systems and alter gene activity", "content_text": "Frog-cell ''neurobots'' grow self-organized nervous systems and alter gene activity #cell #microbiology\n原文地址: https://phys.org/news/2026-03-frog-cell-neurobots-nervous-gene.html", "content_html": "
\"scx1.b-cdn.net
Frog-cell ''neurobots'' grow self-organized nervous systems and alter gene activity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895820/", "url": "https://phys.org/news/2026-03-frog-cell-neurobots-nervous-gene.html", "date_published": "2026-03-16T21:04:04.784Z", "date_modified": "2026-03-16T21:04:04.784Z", "_original_published": "2026-03-16T21:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Frog-cell ''neurobots'' grow self-organized nervous systems and alter gene activity" }, "zh-Hans": { "title": "青蛙细胞“神经机器人”能生长出自组织的神经系统并改变基因活性" }, "ja": { "title": "カエルの細胞から作られた「ニューロボット」は、自己組織化された神経系を形成し、遺伝子の発現を変化させる" }, "zh-Hant": { "title": "青蛙細胞“神經機器人”能生長出自組織的神經系統並改變基因活性" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/toward-autonomous-self.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Frog-cell ''neurobots'' grow self-organized nervous systems and alter gene activity (phys.org)" }, { "title": "吸入纳米颗粒或可实现10分钟内完成肺炎的床边检测", "summary": "Breathing in nanoparticles could enable a 10-minute pneumonia check at point of care", "content_text": "Breathing in nanoparticles could enable a 10-minute pneumonia check at point of care #bio #medicine\n原文地址: https://phys.org/news/2026-03-nanoparticles-enable-minute-pneumonia.html", "content_html": "
\"scx1.b-cdn.net
Breathing in nanoparticles could enable a 10-minute pneumonia check at point of care (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692889541/", "url": "https://phys.org/news/2026-03-nanoparticles-enable-minute-pneumonia.html", "date_published": "2026-03-16T21:04:04.780Z", "date_modified": "2026-03-16T21:04:04.780Z", "_original_published": "2026-03-16T21:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Breathing in nanoparticles could enable a 10-minute pneumonia check at point of care" }, "zh-Hans": { "title": "吸入纳米颗粒或可实现10分钟内完成肺炎的床边检测" }, "ja": { "title": "ナノ粒子を吸入することで、診療現場で10分間の肺炎検査が可能になるかもしれない" }, "zh-Hant": { "title": "吸入納米顆粒或可實現10分鐘內完成肺炎的床邊檢測" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-sensor-sniffs-out-1.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  Breathing in nanoparticles could enable a 10-minute pneumonia check at point of care (phys.org)" }, { "title": "光呼吸可能通过促进C1代谢来帮助维持植物表观基因组", "summary": "Photorespiration may help maintain plant epigenome by fueling C1 metabolism", "content_text": "Photorespiration may help maintain plant epigenome by fueling C1 metabolism #plants #animals\n原文地址: https://phys.org/news/2026-03-photorespiration-epigenome-fueling-c1-metabolism.html", "content_html": "
\"scx1.b-cdn.net
Photorespiration may help maintain plant epigenome by fueling C1 metabolism (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692898361/", "url": "https://phys.org/news/2026-03-photorespiration-epigenome-fueling-c1-metabolism.html", "date_published": "2026-03-16T21:04:04.776Z", "date_modified": "2026-03-16T21:04:04.776Z", "_original_published": "2026-03-16T20:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Photorespiration may help maintain plant epigenome by fueling C1 metabolism" }, "zh-Hans": { "title": "光呼吸可能通过促进C1代谢来帮助维持植物表观基因组" }, "ja": { "title": "光呼吸は、C1代謝を促進することで、植物のエピゲノムを維持するのに役立つ可能性がある" }, "zh-Hant": { "title": "光呼吸可能通過促進C1代謝來幫助維持植物表觀基因組" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/photorespiration-contr.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Photorespiration may help maintain plant epigenome by fueling C1 metabolism (phys.org)" }, { "title": "在尼安德特人的追捕下,巨型大象穿越冰河时期的欧洲,跋涉了数百公里", "summary": "Hunted by Neanderthals, giant elephants traveled hundreds of kilometers across ice-age Europe", "content_text": "Hunted by Neanderthals, giant elephants traveled hundreds of kilometers across ice-age Europe #paleontology #fossils\n原文地址: https://phys.org/news/2026-03-neanderthals-giant-elephants-hundreds-kilometers.html", "content_html": "
\"scx1.b-cdn.net
Hunted by Neanderthals, giant elephants traveled hundreds of kilometers across ice-age Europe (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692889086/", "url": "https://phys.org/news/2026-03-neanderthals-giant-elephants-hundreds-kilometers.html", "date_published": "2026-03-16T20:47:57.926Z", "date_modified": "2026-03-16T20:47:57.926Z", "_original_published": "2026-03-16T20:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Hunted by Neanderthals, giant elephants traveled hundreds of kilometers across ice-age Europe" }, "zh-Hans": { "title": "在尼安德特人的追捕下,巨型大象穿越冰河时期的欧洲,跋涉了数百公里" }, "ja": { "title": "ネアンデルタール人に追われ、巨大なゾウたちは氷河期のヨーロッパを数百キロメートルも移動した" }, "zh-Hant": { "title": "在尼安德特人的追捕下,巨型大象穿越冰河時期的歐洲,跋涉了數百公里" } }, "tags": [ "Paleontology", "&", "Fossils" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/giant-elephants-travel.jpg", "_tag_links": [ { "name": "Paleontology", "url": "https://i.buzzing.cc/phys/tags/paleontology/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Fossils", "url": "https://i.buzzing.cc/phys/tags/fossils/" } ], "_lite_content_html": "03-17  Hunted by Neanderthals, giant elephants traveled hundreds of kilometers across ice-age Europe (phys.org)" }, { "title": "研究人员证实,ChatGPT能够提供原创的数学证明", "summary": "ChatGPT can provide original mathematical proofs, researchers show", "content_text": "ChatGPT can provide original mathematical proofs, researchers show #mathematics\n原文地址: https://phys.org/news/2026-03-chatgpt-mathematical-proofs.html", "content_html": "
\"scx1.b-cdn.net
ChatGPT can provide original mathematical proofs, researchers show (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895493/", "url": "https://phys.org/news/2026-03-chatgpt-mathematical-proofs.html", "date_published": "2026-03-16T20:47:57.923Z", "date_modified": "2026-03-16T20:47:57.923Z", "_original_published": "2026-03-16T20:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "ChatGPT can provide original mathematical proofs, researchers show" }, "zh-Hans": { "title": "研究人员证实,ChatGPT能够提供原创的数学证明" }, "ja": { "title": "研究者らが、ChatGPTが独自の数学的証明を生成できることを明らかにした" }, "zh-Hant": { "title": "研究人員證實,ChatGPT能夠提供原創的數學證明" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2022/math.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "03-17  ChatGPT can provide original mathematical proofs, researchers show (phys.org)" }, { "title": "单细胞数据揭示了脊椎动物胚胎中的细胞“发育沙漏”", "summary": "Single-cell data reveal a cellular ''developmental hourglass'' in vertebrate embryos", "content_text": "Single-cell data reveal a cellular ''developmental hourglass'' in vertebrate embryos #evolution\n原文地址: https://phys.org/news/2026-03-cell-reveal-cellular-developmental-hourglass.html", "content_html": "
\"scx1.b-cdn.net
Single-cell data reveal a cellular ''developmental hourglass'' in vertebrate embryos (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895422/", "url": "https://phys.org/news/2026-03-cell-reveal-cellular-developmental-hourglass.html", "date_published": "2026-03-16T20:32:09.350Z", "date_modified": "2026-03-16T20:32:09.350Z", "_original_published": "2026-03-16T20:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Single-cell data reveal a cellular ''developmental hourglass'' in vertebrate embryos" }, "zh-Hans": { "title": "单细胞数据揭示了脊椎动物胚胎中的细胞“发育沙漏”" }, "ja": { "title": "単一細胞データが、脊椎動物の胚における細胞レベルの「発生の砂時計」を明らかにした" }, "zh-Hant": { "title": "單細胞數據揭示了脊椎動物胚胎中的細胞“發育沙漏”" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-developmental-hour.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-17  Single-cell data reveal a cellular ''developmental hourglass'' in vertebrate embryos (phys.org)" }, { "title": "为了保护“阿耳忒弥斯二号”宇航员,美国宇航局专家们时刻关注着太阳", "summary": "To protect Artemis II Astronauts, NASA experts keep their eyes on the sun", "content_text": "To protect Artemis II Astronauts, NASA experts keep their eyes on the sun #space #exploration\n原文地址: https://phys.org/news/2026-03-artemis-ii-astronauts-nasa-experts.html", "content_html": "
\"scx1.b-cdn.net
To protect Artemis II Astronauts, NASA experts keep their eyes on the sun (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692895575/", "url": "https://phys.org/news/2026-03-artemis-ii-astronauts-nasa-experts.html", "date_published": "2026-03-16T20:32:09.346Z", "date_modified": "2026-03-16T20:32:09.346Z", "_original_published": "2026-03-16T20:20:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "To protect Artemis II Astronauts, NASA experts keep their eyes on the sun" }, "zh-Hans": { "title": "为了保护“阿耳忒弥斯二号”宇航员,美国宇航局专家们时刻关注着太阳" }, "ja": { "title": "アルテミス2号の宇宙飛行士を守るため、NASAの専門家たちは太陽を注視している" }, "zh-Hant": { "title": "為了保護“阿耳忒彌斯二號”宇航員,美國宇航局專家們時刻關注著太陽" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/to-protect-artemis-ii.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-17  To protect Artemis II Astronauts, NASA experts keep their eyes on the sun (phys.org)" }, { "title": "政治类社交媒体广告会影响选举结果吗?", "summary": "Do political social media ads influence the outcome of elections?", "content_text": "Do political social media ads influence the outcome of elections? #social #sciences\n原文地址: https://phys.org/news/2026-03-political-social-media-ads-outcome.html", "content_html": "
\"scx1.b-cdn.net
Do political social media ads influence the outcome of elections? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692888916/", "url": "https://phys.org/news/2026-03-political-social-media-ads-outcome.html", "date_published": "2026-03-16T20:32:09.342Z", "date_modified": "2026-03-16T20:32:09.342Z", "_original_published": "2026-03-16T20:20:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Do political social media ads influence the outcome of elections?" }, "zh-Hans": { "title": "政治类社交媒体广告会影响选举结果吗?" }, "ja": { "title": "ソーシャルメディア上の政治広告は、選挙の結果に影響を与えるのでしょうか?" }, "zh-Hant": { "title": "政治類社交媒體廣告會影響選舉結果嗎?" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/draw-ai-choosing-betwe.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Do political social media ads influence the outcome of elections? (phys.org)" }, { "title": "快速测序法可实现抗生素耐药性的当日检测", "summary": "Rapid sequencing method offers same day detection of antibiotic resistance", "content_text": "Rapid sequencing method offers same day detection of antibiotic resistance #cell #microbiology\n原文地址: https://phys.org/news/2026-03-rapid-sequencing-method-day-antibiotic.html", "content_html": "
\"scx1.b-cdn.net
Rapid sequencing method offers same day detection of antibiotic resistance (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692885761/", "url": "https://phys.org/news/2026-03-rapid-sequencing-method-day-antibiotic.html", "date_published": "2026-03-16T20:00:36.844Z", "date_modified": "2026-03-16T20:00:36.844Z", "_original_published": "2026-03-16T20:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Rapid sequencing method offers same day detection of antibiotic resistance" }, "zh-Hans": { "title": "快速测序法可实现抗生素耐药性的当日检测" }, "ja": { "title": "迅速なシーケンシング法により、抗生物質耐性を即日検出可能" }, "zh-Hant": { "title": "快速測序法可實現抗生素耐藥性的當日檢測" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/rapid-sequencing-metho.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Rapid sequencing method offers same day detection of antibiotic resistance (phys.org)" }, { "title": "研究显示,夏威夷大学半数夏威夷原住民学生面临经期贫困问题", "summary": "Half of Native Hawaiian University of Hawaiʻi students experience period poverty, study reveals", "content_text": "Half of Native Hawaiian University of Hawaiʻi students experience period poverty, study reveals #social #sciences\n原文地址: https://phys.org/news/2026-03-native-hawaiian-university-hawaii-students.html", "content_html": "
\"scx1.b-cdn.net
Half of Native Hawaiian University of Hawaiʻi students experience period poverty, study reveals (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692894881/", "url": "https://phys.org/news/2026-03-native-hawaiian-university-hawaii-students.html", "date_published": "2026-03-16T20:00:36.841Z", "date_modified": "2026-03-16T20:00:36.841Z", "_original_published": "2026-03-16T20:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Half of Native Hawaiian University of Hawaiʻi students experience period poverty, study reveals" }, "zh-Hans": { "title": "研究显示,夏威夷大学半数夏威夷原住民学生面临经期贫困问题" }, "ja": { "title": "調査によると、ハワイ大学に通うハワイ先住民の学生の半数が生理用品の購入が困難な状況にあることが明らかになった" }, "zh-Hant": { "title": "研究顯示,夏威夷大學半數夏威夷原住民學生面臨經期貧困問題" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sanitary-pads.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Half of Native Hawaiian University of Hawaiʻi students experience period poverty, study reveals (phys.org)" }, { "title": "卫星测绘揭示了南大洋海域近期发生的大规模栖息地变化", "summary": "Satellite mapping reveals recent and large-scale habitat changes across the Southern Ocean''s seascapes", "content_text": "Satellite mapping reveals recent and large-scale habitat changes across the Southern Ocean''s seascapes #earth #sciences\n原文地址: https://phys.org/news/2026-03-satellite-reveals-large-scale-habitat.html", "content_html": "
\"scx1.b-cdn.net
Satellite mapping reveals recent and large-scale habitat changes across the Southern Ocean''s seascapes (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692894702/", "url": "https://phys.org/news/2026-03-satellite-reveals-large-scale-habitat.html", "date_published": "2026-03-16T20:00:36.837Z", "date_modified": "2026-03-16T20:00:36.837Z", "_original_published": "2026-03-16T19:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Satellite mapping reveals recent and large-scale habitat changes across the Southern Ocean''s seascapes" }, "zh-Hans": { "title": "卫星测绘揭示了南大洋海域近期发生的大规模栖息地变化" }, "ja": { "title": "衛星画像解析により、南大洋の海域全体で最近起こった大規模な生息地の変化が明らかになった" }, "zh-Hant": { "title": "衛星測繪揭示了南大洋海域近期發生的大規模棲息地變化" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-satellite-mapping-1.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Satellite mapping reveals recent and large-scale habitat changes across the Southern Ocean''s seascapes (phys.org)" }, { "title": "对纳米带组装过程的AI分析揭示了蛋白质设计原理", "summary": "AI analysis of nanoribbon assembly reveals protein design principles", "content_text": "AI analysis of nanoribbon assembly reveals protein design principles #bio #medicine\n原文地址: https://phys.org/news/2026-03-ai-analysis-nanoribbon-reveals-protein.html", "content_html": "
\"scx1.b-cdn.net
AI analysis of nanoribbon assembly reveals protein design principles (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692885401/", "url": "https://phys.org/news/2026-03-ai-analysis-nanoribbon-reveals-protein.html", "date_published": "2026-03-16T19:44:17.006Z", "date_modified": "2026-03-16T19:44:17.006Z", "_original_published": "2026-03-16T19:40:10.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI analysis of nanoribbon assembly reveals protein design principles" }, "zh-Hans": { "title": "对纳米带组装过程的AI分析揭示了蛋白质设计原理" }, "ja": { "title": "ナノリボンの集合体に関するAI解析が、タンパク質設計の原則を明らかにする" }, "zh-Hant": { "title": "對納米帶組裝過程的AI分析揭示了蛋白質設計原理" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/protein-design-princip.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-17  AI analysis of nanoribbon assembly reveals protein design principles (phys.org)" }, { "title": "具有“咬合力”的分子链:定制化碳纳米带为分子电子学开辟了一条更清洁的道路", "summary": "Molecular chains with bite: Customized carbon nanoribbons open a cleaner path to molecular electronics", "content_text": "Molecular chains with bite: Customized carbon nanoribbons open a cleaner path to molecular electronics #nanophysics\n原文地址: https://phys.org/news/2026-03-molecular-chains-customized-carbon-nanoribbons.html", "content_html": "
\"scx1.b-cdn.net
Molecular chains with bite: Customized carbon nanoribbons open a cleaner path to molecular electronics (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692885281/", "url": "https://phys.org/news/2026-03-molecular-chains-customized-carbon-nanoribbons.html", "date_published": "2026-03-16T19:28:04.280Z", "date_modified": "2026-03-16T19:28:04.280Z", "_original_published": "2026-03-16T19:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Molecular chains with bite: Customized carbon nanoribbons open a cleaner path to molecular electronics" }, "zh-Hans": { "title": "具有“咬合力”的分子链:定制化碳纳米带为分子电子学开辟了一条更清洁的道路" }, "ja": { "title": "強力な分子鎖:カスタマイズされたカーボンナノリボンが、分子エレクトロニクスへのよりクリーンな道を開く" }, "zh-Hant": { "title": "具有“咬合力”的分子鏈:定製化碳納米帶為分子電子學開闢了一條更清潔的道路" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ultralong-polypara-phe.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "03-17  Molecular chains with bite: Customized carbon nanoribbons open a cleaner path to molecular electronics (phys.org)" }, { "title": "同类相食对幼年蓝蟹造成了重大打击,但浅水区为它们提供了避难所", "summary": "Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge", "content_text": "Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge #plants #animals\n原文地址: https://phys.org/news/2026-03-cannibalism-major-young-blue-crabs.html", "content_html": "
\"scx1.b-cdn.net
Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692610481/", "url": "https://phys.org/news/2026-03-cannibalism-major-young-blue-crabs.html", "date_published": "2026-03-16T19:12:15.784Z", "date_modified": "2026-03-16T19:12:15.784Z", "_original_published": "2026-03-16T19:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge" }, "zh-Hans": { "title": "同类相食对幼年蓝蟹造成了重大打击,但浅水区为它们提供了避难所" }, "ja": { "title": "幼生のアオガニは共食いの被害を大きく受けるが、浅瀬は避難場所となっている" }, "zh-Hant": { "title": "同類相食對幼年藍蟹造成了重大打擊,但淺水區為它們提供了避難所" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cannibalism-takes-majo-5.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge (phys.org)" }, { "title": "密度最低的“超膨大行星”的起源仍是个扑朔迷离的谜团", "summary": "Origin of lowest density super-puff planet remains a hazy mystery", "content_text": "Origin of lowest density super-puff planet remains a hazy mystery #planetary #sciences\n原文地址: https://phys.org/news/2026-03-lowest-density-super-puff-planet.html", "content_html": "
\"scx1.b-cdn.net
Origin of lowest density super-puff planet remains a hazy mystery (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692884502/", "url": "https://phys.org/news/2026-03-lowest-density-super-puff-planet.html", "date_published": "2026-03-16T18:40:18.858Z", "date_modified": "2026-03-16T18:40:18.858Z", "_original_published": "2026-03-16T18:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Origin of lowest density super-puff planet remains a hazy mystery" }, "zh-Hans": { "title": "密度最低的“超膨大行星”的起源仍是个扑朔迷离的谜团" }, "ja": { "title": "最も密度の低い「スーパーパフ」惑星の起源は、依然として謎に包まれている" }, "zh-Hant": { "title": "密度最低的“超膨大行星”的起源仍是個撲朔迷離的謎團" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/origin-of-lowest-densi.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Origin of lowest density super-puff planet remains a hazy mystery (phys.org)" }, { "title": "龙宫小行星样本中含有所有DNA和RNA的组成成分,这为生命起源理论提供了有力支持", "summary": "Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories", "content_text": "Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories #astrobiology\n原文地址: https://phys.org/news/2026-03-ryugu-asteroid-samples-dna-rna.html", "content_html": "
\"scx1.b-cdn.net
Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692889939/", "url": "https://phys.org/news/2026-03-ryugu-asteroid-samples-dna-rna.html", "date_published": "2026-03-16T18:40:18.855Z", "date_modified": "2026-03-16T18:40:18.855Z", "_original_published": "2026-03-16T18:26:23.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories" }, "zh-Hans": { "title": "龙宫小行星样本中含有所有DNA和RNA的组成成分,这为生命起源理论提供了有力支持" }, "ja": { "title": "小惑星「リュウグウ」の試料には、DNAとRNAを構成するすべての基本単位が含まれており、生命の起源に関する諸説を裏付けるものとなっている" }, "zh-Hant": { "title": "龍宮小行星樣本中含有所有DNA和RNA的組成成分,這為生命起源理論提供了有力支持" } }, "tags": [ "Astrobiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-black-particles-fr.jpg", "_tag_links": [ { "name": "Astrobiology", "url": "https://i.buzzing.cc/phys/tags/astrobiology/" } ], "_lite_content_html": "03-17  Ryugu asteroid samples contain all DNA and RNA building blocks, bolstering origin-of-life theories (phys.org)" }, { "title": "在古老的矮星系中发现了一颗极其罕见的第二代恒星", "summary": "Extremely rare second-generation star discovered inside ancient relic dwarf galaxy", "content_text": "Extremely rare second-generation star discovered inside ancient relic dwarf galaxy #astronomy\n原文地址: https://phys.org/news/2026-03-extremely-rare-generation-star-ancient.html", "content_html": "
\"scx1.b-cdn.net
Extremely rare second-generation star discovered inside ancient relic dwarf galaxy (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692884261/", "url": "https://phys.org/news/2026-03-extremely-rare-generation-star-ancient.html", "date_published": "2026-03-16T18:23:56.314Z", "date_modified": "2026-03-16T18:23:56.314Z", "_original_published": "2026-03-16T18:20:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Extremely rare second-generation star discovered inside ancient relic dwarf galaxy" }, "zh-Hans": { "title": "在古老的矮星系中发现了一颗极其罕见的第二代恒星" }, "ja": { "title": "古代の矮小銀河の内部で、極めて希少な第2世代の恒星が発見された" }, "zh-Hant": { "title": "在古老的矮星系中發現了一顆極其罕見的第二代恆星" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/extremely-rare-second-1.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  Extremely rare second-generation star discovered inside ancient relic dwarf galaxy (phys.org)" }, { "title": "古生物学家根据一本出版数十年的书籍中的线索,深入撒哈拉沙漠,发现了一种新的棘龙物种", "summary": "Paleontologists uncover a new Spinosaurus species by following a clue from a decades‑old book into the Sahara Desert", "content_text": "Paleontologists uncover a new Spinosaurus species by following a clue from a decades‑old book into the Sahara Desert #paleontology #fossils\n原文地址: https://phys.org/news/2026-03-paleontologists-uncover-spinosaurus-species-clue.html", "content_html": "
\"scx1.b-cdn.net
Paleontologists uncover a new Spinosaurus species by following a clue from a decades‑old book into the Sahara Desert (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692889099/", "url": "https://phys.org/news/2026-03-paleontologists-uncover-spinosaurus-species-clue.html", "date_published": "2026-03-16T18:23:56.310Z", "date_modified": "2026-03-16T18:23:56.310Z", "_original_published": "2026-03-16T18:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Paleontologists uncover a new Spinosaurus species by following a clue from a decades‑old book into the Sahara Desert" }, "zh-Hans": { "title": "古生物学家根据一本出版数十年的书籍中的线索,深入撒哈拉沙漠,发现了一种新的棘龙物种" }, "ja": { "title": "古生物学者たちが、数十年前の本に記された手がかりを頼りにサハラ砂漠へと向かい、スピノサウルスの新種を発見した" }, "zh-Hant": { "title": "古生物學家根據一本出版數十年的書籍中的線索,深入撒哈拉沙漠,發現了一種新的棘龍物種" } }, "tags": [ "Paleontology", "&", "Fossils" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/paleontologists-uncove.jpg", "_tag_links": [ { "name": "Paleontology", "url": "https://i.buzzing.cc/phys/tags/paleontology/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Fossils", "url": "https://i.buzzing.cc/phys/tags/fossils/" } ], "_lite_content_html": "03-17  Paleontologists uncover a new Spinosaurus species by following a clue from a decades‑old book into the Sahara Desert (phys.org)" }, { "title": "糖代谢酶还有一项不为人知的“副业”——调控细胞分裂的时间", "summary": "Sugar-processing enzyme has a hidden second job—controlling when cells divide", "content_text": "Sugar-processing enzyme has a hidden second job—controlling when cells divide #cell #microbiology\n原文地址: https://phys.org/news/2026-03-sugar-enzyme-hidden-job-cells.html", "content_html": "
\"scx1.b-cdn.net
Sugar-processing enzyme has a hidden second job—controlling when cells divide (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692883122/", "url": "https://phys.org/news/2026-03-sugar-enzyme-hidden-job-cells.html", "date_published": "2026-03-16T18:07:59.973Z", "date_modified": "2026-03-16T18:07:59.973Z", "_original_published": "2026-03-16T18:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sugar-processing enzyme has a hidden second job—controlling when cells divide" }, "zh-Hans": { "title": "糖代谢酶还有一项不为人知的“副业”——调控细胞分裂的时间" }, "ja": { "title": "糖を分解する酵素には、細胞がいつ分裂するかを制御するという、もう一つの役割が隠されている" }, "zh-Hant": { "title": "糖代謝酶還有一項不為人知的“副業”——調控細胞分裂的時間" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sugar-processing-enzym.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Sugar-processing enzyme has a hidden second job—controlling when cells divide (phys.org)" }, { "title": "鲸歌混音:研究表明,当邻近的座头鲸加入合唱时,它们会改变音高", "summary": "Whale song remix: Study shows that humpbacks shift pitch when a neighbor joins in", "content_text": "Whale song remix: Study shows that humpbacks shift pitch when a neighbor joins in #plants #animals\n原文地址: https://phys.org/news/2026-03-whale-song-remix-humpbacks-shift.html", "content_html": "
\"scx1.b-cdn.net
Whale song remix: Study shows that humpbacks shift pitch when a neighbor joins in (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692883002/", "url": "https://phys.org/news/2026-03-whale-song-remix-humpbacks-shift.html", "date_published": "2026-03-16T17:52:13.688Z", "date_modified": "2026-03-16T17:52:13.688Z", "_original_published": "2026-03-16T17:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Whale song remix: Study shows that humpbacks shift pitch when a neighbor joins in" }, "zh-Hans": { "title": "鲸歌混音:研究表明,当邻近的座头鲸加入合唱时,它们会改变音高" }, "ja": { "title": "クジラの歌のリミックス:研究によると、ザトウクジラは隣にいる個体が加わると音程を変えることがわかった" }, "zh-Hant": { "title": "鯨歌混音:研究表明,當鄰近的座頭鯨加入合唱時,它們會改變音高" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/whale-song-remix-study.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Whale song remix: Study shows that humpbacks shift pitch when a neighbor joins in (phys.org)" }, { "title": "海洋细菌联手分解可降解塑料", "summary": "Ocean bacteria team up to break down biodegradable plastic", "content_text": "Ocean bacteria team up to break down biodegradable plastic #environment\n原文地址: https://phys.org/news/2026-03-ocean-bacteria-team-biodegradable-plastic.html", "content_html": "
\"scx1.b-cdn.net
Ocean bacteria team up to break down biodegradable plastic (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692882461/", "url": "https://phys.org/news/2026-03-ocean-bacteria-team-biodegradable-plastic.html", "date_published": "2026-03-16T17:36:12.740Z", "date_modified": "2026-03-16T17:36:12.740Z", "_original_published": "2026-03-16T17:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ocean bacteria team up to break down biodegradable plastic" }, "zh-Hans": { "title": "海洋细菌联手分解可降解塑料" }, "ja": { "title": "海洋細菌が協力して生分解性プラスチックを分解する" }, "zh-Hant": { "title": "海洋細菌聯手分解可降解塑料" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ocean-bacteria-team-up.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-17  Ocean bacteria team up to break down biodegradable plastic (phys.org)" }, { "title": "大数据如何重塑我们对宇宙的认知", "summary": "How big data is transforming what we know about the universe", "content_text": "How big data is transforming what we know about the universe #astronomy\n原文地址: https://phys.org/news/2026-03-big-universe.html", "content_html": "
\"scx1.b-cdn.net
How big data is transforming what we know about the universe (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692884142/", "url": "https://phys.org/news/2026-03-big-universe.html", "date_published": "2026-03-16T17:04:13.772Z", "date_modified": "2026-03-16T17:04:13.772Z", "_original_published": "2026-03-16T17:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "How big data is transforming what we know about the universe" }, "zh-Hans": { "title": "大数据如何重塑我们对宇宙的认知" }, "ja": { "title": "ビッグデータが、私たちが宇宙について知っていることをどのように変えつつあるか" }, "zh-Hant": { "title": "大數據如何重塑我們對宇宙的認知" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2018/bigdata.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  How big data is transforming what we know about the universe (phys.org)" }, { "title": "海龟、不断缩小的海滩和不断上升的海平面:研究发现筑巢地正面临空间不足的问题", "summary": "Sea turtles, shrinking beaches and rising seas: Study finds nesting sites running out of room", "content_text": "Sea turtles, shrinking beaches and rising seas: Study finds nesting sites running out of room #plants #animals\n原文地址: https://phys.org/news/2026-03-sea-turtles-beaches-seas-sites.html", "content_html": "
\"scx1.b-cdn.net
Sea turtles, shrinking beaches and rising seas: Study finds nesting sites running out of room (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692882401/", "url": "https://phys.org/news/2026-03-sea-turtles-beaches-seas-sites.html", "date_published": "2026-03-16T17:04:13.768Z", "date_modified": "2026-03-16T17:04:13.768Z", "_original_published": "2026-03-16T17:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sea turtles, shrinking beaches and rising seas: Study finds nesting sites running out of room" }, "zh-Hans": { "title": "海龟、不断缩小的海滩和不断上升的海平面:研究发现筑巢地正面临空间不足的问题" }, "ja": { "title": "ウミガメ、縮小する海岸、そして海面上昇:研究によると、産卵地のスペースが不足しつつある" }, "zh-Hant": { "title": "海龜、不斷縮小的海灘和不斷上升的海平面:研究發現築巢地正面臨空間不足的問題" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sea-turtles-shrinking.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-17  Sea turtles, shrinking beaches and rising seas: Study finds nesting sites running out of room (phys.org)" }, { "title": "100年前,第一枚现代火箭成功发射,由此拉开了航天飞行领域一个既充满创新又充满挑战的百年序幕", "summary": "The first modern rocket launched 100 years ago, beginning a century of both innovations and challenges for spaceflight", "content_text": "The first modern rocket launched 100 years ago, beginning a century of both innovations and challenges for spaceflight #space #exploration\n原文地址: https://phys.org/news/2026-03-modern-rocket-years-century-spaceflight.html", "content_html": "
\"scx1.b-cdn.net
The first modern rocket launched 100 years ago, beginning a century of both innovations and challenges for spaceflight (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692884081/", "url": "https://phys.org/news/2026-03-modern-rocket-years-century-spaceflight.html", "date_published": "2026-03-16T17:04:13.764Z", "date_modified": "2026-03-16T17:04:13.764Z", "_original_published": "2026-03-16T16:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The first modern rocket launched 100 years ago, beginning a century of both innovations and challenges for spaceflight" }, "zh-Hans": { "title": "100年前,第一枚现代火箭成功发射,由此拉开了航天飞行领域一个既充满创新又充满挑战的百年序幕" }, "ja": { "title": "100年前に最初の近代的なロケットが打ち上げられ、宇宙飛行における革新と課題に満ちた1世紀の幕が開いた" }, "zh-Hant": { "title": "100年前,第一枚現代火箭成功發射,由此拉開了航天飛行領域一個既充滿創新又充滿挑戰的百年序幕" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2024/space.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-17  The first modern rocket launched 100 years ago, beginning a century of both innovations and challenges for spaceflight (phys.org)" }, { "title": "编写关于细胞如何相互连接的参考手册", "summary": "Building a reference manual for how cells connect with each other", "content_text": "Building a reference manual for how cells connect with each other #cell #microbiology\n原文地址: https://phys.org/news/2026-03-manual-cells.html", "content_html": "
\"scx1.b-cdn.net
Building a reference manual for how cells connect with each other (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692881862/", "url": "https://phys.org/news/2026-03-manual-cells.html", "date_published": "2026-03-16T16:48:02.974Z", "date_modified": "2026-03-16T16:48:02.974Z", "_original_published": "2026-03-16T16:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Building a reference manual for how cells connect with each other" }, "zh-Hans": { "title": "编写关于细胞如何相互连接的参考手册" }, "ja": { "title": "細胞同士がどのように結合するかについてのリファレンスマニュアルの作成" }, "zh-Hant": { "title": "編寫關於細胞如何相互連接的參考手冊" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/building-a-reference-m.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-17  Building a reference manual for how cells connect with each other (phys.org)" }, { "title": "国际空间站研究确定了微重力环境下肌肉萎缩和肌纤维变化的阈值", "summary": "ISS study identifies thresholds for muscle atrophy and fiber changes in reduced gravity", "content_text": "ISS study identifies thresholds for muscle atrophy and fiber changes in reduced gravity #space #exploration\n原文地址: https://phys.org/news/2026-03-iss-thresholds-muscle-atrophy-fiber.html", "content_html": "
\"scx1.b-cdn.net
ISS study identifies thresholds for muscle atrophy and fiber changes in reduced gravity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692881116/", "url": "https://phys.org/news/2026-03-iss-thresholds-muscle-atrophy-fiber.html", "date_published": "2026-03-16T16:32:33.080Z", "date_modified": "2026-03-16T16:32:33.080Z", "_original_published": "2026-03-16T16:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "ISS study identifies thresholds for muscle atrophy and fiber changes in reduced gravity" }, "zh-Hans": { "title": "国际空间站研究确定了微重力环境下肌肉萎缩和肌纤维变化的阈值" }, "ja": { "title": "ISSでの研究により、微小重力環境下における筋萎縮および筋線維の変化の閾値が特定された" }, "zh-Hant": { "title": "國際空間站研究確定了微重力環境下肌肉萎縮和肌纖維變化的閾值" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/astronaut.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-17  ISS study identifies thresholds for muscle atrophy and fiber changes in reduced gravity (phys.org)" }, { "title": "“失败即成功”:为何大学生需要更多犯错的空间", "summary": "Failing to succeed: Why post‑secondary students need more room to mess up", "content_text": "Failing to succeed: Why post‑secondary students need more room to mess up #education\n原文地址: https://phys.org/news/2026-03-succeed-postsecondary-students-room-mess.html", "content_html": "
\"scx1.b-cdn.net
Failing to succeed: Why post‑secondary students need more room to mess up (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692881802/", "url": "https://phys.org/news/2026-03-succeed-postsecondary-students-room-mess.html", "date_published": "2026-03-16T16:32:33.076Z", "date_modified": "2026-03-16T16:32:33.076Z", "_original_published": "2026-03-16T16:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Failing to succeed: Why post‑secondary students need more room to mess up" }, "zh-Hans": { "title": "“失败即成功”:为何大学生需要更多犯错的空间" }, "ja": { "title": "成功できないこと:なぜ大学生には失敗する余地が必要なのか" }, "zh-Hant": { "title": "“失敗即成功”:為何大學生需要更多犯錯的空間" } }, "tags": [ "Education" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2018/2-students.jpg", "_tag_links": [ { "name": "Education", "url": "https://i.buzzing.cc/phys/tags/education/" } ], "_lite_content_html": "03-17  Failing to succeed: Why post‑secondary students need more room to mess up (phys.org)" }, { "title": "沿海海洋化学目前已受到人类活动的大幅影响", "summary": "Coastal ocean chemistry now substantially shaped by humans", "content_text": "Coastal ocean chemistry now substantially shaped by humans #earth #sciences\n原文地址: https://phys.org/news/2026-03-coastal-ocean-chemistry-substantially-humans.html", "content_html": "
\"scx1.b-cdn.net
Coastal ocean chemistry now substantially shaped by humans (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692878141/", "url": "https://phys.org/news/2026-03-coastal-ocean-chemistry-substantially-humans.html", "date_published": "2026-03-16T16:16:24.118Z", "date_modified": "2026-03-16T16:16:24.118Z", "_original_published": "2026-03-16T16:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Coastal ocean chemistry now substantially shaped by humans" }, "zh-Hans": { "title": "沿海海洋化学目前已受到人类活动的大幅影响" }, "ja": { "title": "沿岸海域の化学的性質は、今や人間によって大きく左右されている" }, "zh-Hant": { "title": "沿海海洋化學目前已受到人類活動的大幅影響" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/coastal-ocean-chemistr.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-17  Coastal ocean chemistry now substantially shaped by humans (phys.org)" }, { "title": "那场无人能解释的七小时大爆炸", "summary": "The seven hour explosion nobody could explain", "content_text": "The seven hour explosion nobody could explain #astronomy\n原文地址: https://phys.org/news/2026-03-hour-explosion.html", "content_html": "
\"scx1.b-cdn.net
The seven hour explosion nobody could explain (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692880122/", "url": "https://phys.org/news/2026-03-hour-explosion.html", "date_published": "2026-03-16T16:16:24.114Z", "date_modified": "2026-03-16T16:16:24.114Z", "_original_published": "2026-03-16T16:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The seven hour explosion nobody could explain" }, "zh-Hans": { "title": "那场无人能解释的七小时大爆炸" }, "ja": { "title": "誰も説明できなかった7時間にわたる爆発" }, "zh-Hant": { "title": "那場無人能解釋的七小時大爆炸" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-seven-hour-explosi.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-17  The seven hour explosion nobody could explain (phys.org)" }, { "title": "将蚊子变成空中疫苗载体,以防范蝙蝠传播的病毒", "summary": "Turning mosquitoes into flying vaccine carriers to protect against bat-borne viruses", "content_text": "Turning mosquitoes into flying vaccine carriers to protect against bat-borne viruses #ecology\n原文地址: https://phys.org/news/2026-03-mosquitoes-flying-vaccine-carriers-borne.html", "content_html": "
\"scx1.b-cdn.net
Turning mosquitoes into flying vaccine carriers to protect against bat-borne viruses (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692876963/", "url": "https://phys.org/news/2026-03-mosquitoes-flying-vaccine-carriers-borne.html", "date_published": "2026-03-16T15:28:01.685Z", "date_modified": "2026-03-16T15:28:01.685Z", "_original_published": "2026-03-16T15:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Turning mosquitoes into flying vaccine carriers to protect against bat-borne viruses" }, "zh-Hans": { "title": "将蚊子变成空中疫苗载体,以防范蝙蝠传播的病毒" }, "ja": { "title": "蚊を空飛ぶワクチン運搬役に変え、コウモリ由来のウイルスから身を守る" }, "zh-Hant": { "title": "將蚊子變成空中疫苗載體,以防範蝙蝠傳播的病毒" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/turning-mosquitos-into.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-16  Turning mosquitoes into flying vaccine carriers to protect against bat-borne viruses (phys.org)" }, { "title": "计算模型可根据常规活检切片图像预测端粒长度", "summary": "Computational model predicts telomere length from routine biopsy slide images", "content_text": "Computational model predicts telomere length from routine biopsy slide images #biotechnology\n原文地址: https://phys.org/news/2026-03-telomere-length-routine-biopsy-images.html", "content_html": "
\"scx1.b-cdn.net
Computational model predicts telomere length from routine biopsy slide images (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692627101/", "url": "https://phys.org/news/2026-03-telomere-length-routine-biopsy-images.html", "date_published": "2026-03-16T15:12:19.778Z", "date_modified": "2026-03-16T15:12:19.778Z", "_original_published": "2026-03-16T15:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Computational model predicts telomere length from routine biopsy slide images" }, "zh-Hans": { "title": "计算模型可根据常规活检切片图像预测端粒长度" }, "ja": { "title": "計算モデルが、通常の生検スライド画像からテロメアの長さを予測する" }, "zh-Hant": { "title": "計算模型可根據常規活檢切片圖像預測端粒長度" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/computational-model-me.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-16  Computational model predicts telomere length from routine biopsy slide images (phys.org)" }, { "title": "“冰”号卫星精准探测到一场强烈的地磁风暴", "summary": "Ice satellite detects powerful geomagnetic storm with precision", "content_text": "Ice satellite detects powerful geomagnetic storm with precision #planetary #sciences\n原文地址: https://phys.org/news/2026-03-ice-satellite-powerful-geomagnetic-storm.html", "content_html": "
\"scx1.b-cdn.net
Ice satellite detects powerful geomagnetic storm with precision (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692875562/", "url": "https://phys.org/news/2026-03-ice-satellite-powerful-geomagnetic-storm.html", "date_published": "2026-03-16T14:41:26.314Z", "date_modified": "2026-03-16T14:41:26.314Z", "_original_published": "2026-03-16T14:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ice satellite detects powerful geomagnetic storm with precision" }, "zh-Hans": { "title": "“冰”号卫星精准探测到一场强烈的地磁风暴" }, "ja": { "title": "氷の衛星が強力な地磁気嵐を高精度で観測" }, "zh-Hant": { "title": "“冰”號衛星精準探測到一場強烈的地磁風暴" } }, "tags": [ "Planetary", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-does-an-ice-satell.jpg", "_tag_links": [ { "name": "Planetary", "url": "https://i.buzzing.cc/phys/tags/planetary/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-16  Ice satellite detects powerful geomagnetic storm with precision (phys.org)" }, { "title": "欧洲的有计划撤退现象比此前预想的更为普遍", "summary": "Managed retreat in Europe more widespread than previously assumed", "content_text": "Managed retreat in Europe more widespread than previously assumed #earth #sciences\n原文地址: https://phys.org/news/2026-03-retreat-europe-widespread-previously-assumed.html", "content_html": "
\"scx1.b-cdn.net
Managed retreat in Europe more widespread than previously assumed (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692874662/", "url": "https://phys.org/news/2026-03-retreat-europe-widespread-previously-assumed.html", "date_published": "2026-03-16T14:25:04.353Z", "date_modified": "2026-03-16T14:25:04.353Z", "_original_published": "2026-03-16T14:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Managed retreat in Europe more widespread than previously assumed" }, "zh-Hans": { "title": "欧洲的有计划撤退现象比此前预想的更为普遍" }, "ja": { "title": "欧州における管理型撤退は、従来考えられていたよりも広範囲に及んでいる" }, "zh-Hant": { "title": "歐洲的有計劃撤退現象比此前預想的更為普遍" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/managed-retreat-in-eur.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-16  Managed retreat in Europe more widespread than previously assumed (phys.org)" }, { "title": "已知最古老的鲸鱼记录或将揭开海洋之谜", "summary": "Oldest known whale recording could unlock mysteries of the ocean", "content_text": "Oldest known whale recording could unlock mysteries of the ocean #plants #animals\n原文地址: https://phys.org/news/2026-03-oldest-whale-mysteries-ocean.html", "content_html": "
\"scx1.b-cdn.net
Oldest known whale recording could unlock mysteries of the ocean (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692874660/", "url": "https://phys.org/news/2026-03-oldest-whale-mysteries-ocean.html", "date_published": "2026-03-16T14:25:04.350Z", "date_modified": "2026-03-16T14:25:04.350Z", "_original_published": "2026-03-16T14:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Oldest known whale recording could unlock mysteries of the ocean" }, "zh-Hans": { "title": "已知最古老的鲸鱼记录或将揭开海洋之谜" }, "ja": { "title": "現存する最古のクジラの記録が、海の謎を解き明かす鍵となるかもしれない" }, "zh-Hant": { "title": "已知最古老的鯨魚記錄或將揭開海洋之謎" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/oldest-known-whale-rec.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-16  Oldest known whale recording could unlock mysteries of the ocean (phys.org)" }, { "title": "研究表明,球状星团NGC 5824嵌于暗物质晕之中", "summary": "Globular cluster NGC 5824 is embedded in a dark matter halo, study suggests", "content_text": "Globular cluster NGC 5824 is embedded in a dark matter halo, study suggests #astronomy\n原文地址: https://phys.org/news/2026-03-globular-cluster-ngc-embedded-dark.html", "content_html": "
\"scx1.b-cdn.net
Globular cluster NGC 5824 is embedded in a dark matter halo, study suggests (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692873667/", "url": "https://phys.org/news/2026-03-globular-cluster-ngc-embedded-dark.html", "date_published": "2026-03-16T14:08:53.591Z", "date_modified": "2026-03-16T14:08:53.591Z", "_original_published": "2026-03-16T14:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Globular cluster NGC 5824 is embedded in a dark matter halo, study suggests" }, "zh-Hans": { "title": "研究表明,球状星团NGC 5824嵌于暗物质晕之中" }, "ja": { "title": "研究によると、球状星団NGC 5824は暗黒物質ハローの中に位置しているという" }, "zh-Hant": { "title": "研究表明,球狀星團NGC 5824嵌於暗物質暈之中" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/globular-cluster-ngc-5.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-16  Globular cluster NGC 5824 is embedded in a dark matter halo, study suggests (phys.org)" }, { "title": "研究人员警告称,SpaceX和Reflect Orbital的计划将给夜空留下“永久性疤痕”", "summary": "SpaceX and Reflect Orbital plans would ''permanently scar'' night sky, researchers warn", "content_text": "SpaceX and Reflect Orbital plans would ''permanently scar'' night sky, researchers warn #space #exploration\n原文地址: https://phys.org/news/2026-03-spacex-orbital-permanently-scar-night.html", "content_html": "
\"scx1.b-cdn.net
SpaceX and Reflect Orbital plans would ''permanently scar'' night sky, researchers warn (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692873678/", "url": "https://phys.org/news/2026-03-spacex-orbital-permanently-scar-night.html", "date_published": "2026-03-16T14:08:53.587Z", "date_modified": "2026-03-16T14:08:53.587Z", "_original_published": "2026-03-16T13:58:54.000Z", "_original_language": "en", "_translations": { "en": { "title": "SpaceX and Reflect Orbital plans would ''permanently scar'' night sky, researchers warn" }, "zh-Hans": { "title": "研究人员警告称,SpaceX和Reflect Orbital的计划将给夜空留下“永久性疤痕”" }, "ja": { "title": "研究者らは、スペースXとリフレクト・オービタルの計画が夜空に「取り返しのつかない傷」を残す恐れがあると警告している" }, "zh-Hant": { "title": "研究人員警告稱,SpaceX和Reflect Orbital的計劃將給夜空留下“永久性疤痕”" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/night-sky.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-16  SpaceX and Reflect Orbital plans would ''permanently scar'' night sky, researchers warn (phys.org)" }, { "title": "光子学和纳米技术有望将癌症信号的检测时间提前5至8年", "summary": "Photonics and nanotech could spot cancer signals 5 to 8 years earlier", "content_text": "Photonics and nanotech could spot cancer signals 5 to 8 years earlier #bio #medicine\n原文地址: https://phys.org/news/2026-03-photonics-nanotech-cancer-years-earlier.html", "content_html": "
\"scx1.b-cdn.net
Photonics and nanotech could spot cancer signals 5 to 8 years earlier (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692869573/", "url": "https://phys.org/news/2026-03-photonics-nanotech-cancer-years-earlier.html", "date_published": "2026-03-16T12:52:03.406Z", "date_modified": "2026-03-16T12:52:03.406Z", "_original_published": "2026-03-16T12:47:23.000Z", "_original_language": "en", "_translations": { "en": { "title": "Photonics and nanotech could spot cancer signals 5 to 8 years earlier" }, "zh-Hans": { "title": "光子学和纳米技术有望将癌症信号的检测时间提前5至8年" }, "ja": { "title": "フォトニクスとナノテクノロジーにより、がんの兆候を58年早く発見できる可能性がある" }, "zh-Hant": { "title": "光子學和納米技術有望將癌症信號的檢測時間提前5至8年" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/photonics-and-nanotech.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-16  Photonics and nanotech could spot cancer signals 5 to 8 years earlier (phys.org)" }, { "title": "志愿者发现太阳耀斑活动频率异常高", "summary": "Volunteers find oddly high solar flare rates", "content_text": "Volunteers find oddly high solar flare rates #astronomy\n原文地址: https://phys.org/news/2026-03-volunteers-oddly-high-solar-flare.html", "content_html": "
\"scx1.b-cdn.net
Volunteers find oddly high solar flare rates (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692865844/", "url": "https://phys.org/news/2026-03-volunteers-oddly-high-solar-flare.html", "date_published": "2026-03-16T11:48:53.908Z", "date_modified": "2026-03-16T11:48:53.908Z", "_original_published": "2026-03-16T11:45:32.000Z", "_original_language": "en", "_translations": { "en": { "title": "Volunteers find oddly high solar flare rates" }, "zh-Hans": { "title": "志愿者发现太阳耀斑活动频率异常高" }, "ja": { "title": "ボランティアが、異常に高い太陽フレアの発生頻度を発見した" }, "zh-Hant": { "title": "志願者發現太陽耀斑活動頻率異常高" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/volunteers-find-oddly.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-16  Volunteers find oddly high solar flare rates (phys.org)" }, { "title": "计划发射“泰坦”号?新实验室测试揭示了氮气驱动的防热盾碎片风险", "summary": "Planning Titan entry? New lab tests flag nitrogen-driven heat shield debris risks", "content_text": "Planning Titan entry? New lab tests flag nitrogen-driven heat shield debris risks #space #exploration\n原文地址: https://phys.org/news/2026-03-titan-entry-lab-flag-nitrogen.html", "content_html": "
\"scx1.b-cdn.net
Planning Titan entry? New lab tests flag nitrogen-driven heat shield debris risks (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692862940/", "url": "https://phys.org/news/2026-03-titan-entry-lab-flag-nitrogen.html", "date_published": "2026-03-16T11:02:11.422Z", "date_modified": "2026-03-16T11:02:11.422Z", "_original_published": "2026-03-16T10:56:37.000Z", "_original_language": "en", "_translations": { "en": { "title": "Planning Titan entry? New lab tests flag nitrogen-driven heat shield debris risks" }, "zh-Hans": { "title": "计划发射“泰坦”号?新实验室测试揭示了氮气驱动的防热盾碎片风险" }, "ja": { "title": "「タイタン」の打ち上げを計画中ですか? 新たな実験で、窒素による熱シールドの破片飛散リスクが指摘される" }, "zh-Hant": { "title": "計劃發射“泰坦”號?新實驗室測試揭示了氮氣驅動的防熱盾碎片風險" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-research-shows-nit.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-16  Planning Titan entry? New lab tests flag nitrogen-driven heat shield debris risks (phys.org)" }, { "title": "利用细菌将塑料瓶转化为帕金森病药物", "summary": "Plastic bottles transformed into Parkinson''s drug using bacteria", "content_text": "Plastic bottles transformed into Parkinson''s drug using bacteria #cell #microbiology\n原文地址: https://phys.org/news/2026-03-plastic-bottles-parkinson-drug-bacteria.html", "content_html": "
\"scx1.b-cdn.net
Plastic bottles transformed into Parkinson''s drug using bacteria (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692627939/", "url": "https://phys.org/news/2026-03-plastic-bottles-parkinson-drug-bacteria.html", "date_published": "2026-03-16T10:14:06.757Z", "date_modified": "2026-03-16T10:14:06.757Z", "_original_published": "2026-03-16T10:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Plastic bottles transformed into Parkinson''s drug using bacteria" }, "zh-Hans": { "title": "利用细菌将塑料瓶转化为帕金森病药物" }, "ja": { "title": "バクテリアを使ってペットボトルをパーキンソン病治療薬に変える" }, "zh-Hant": { "title": "利用細菌將塑料瓶轉化為帕金森病藥物" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/plastic-bottles-transf.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-16  Plastic bottles transformed into Parkinson''s drug using bacteria (phys.org)" }, { "title": "一类新型熔融行星在永恒的岩浆洋中储存着丰富的硫", "summary": "A new class of molten planet stores abundant sulfur in a perpetual magma ocean", "content_text": "A new class of molten planet stores abundant sulfur in a perpetual magma ocean #astronomy\n原文地址: https://phys.org/news/2026-03-class-molten-planet-abundant-sulfur.html", "content_html": "
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A new class of molten planet stores abundant sulfur in a perpetual magma ocean (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692628541/", "url": "https://phys.org/news/2026-03-class-molten-planet-abundant-sulfur.html", "date_published": "2026-03-16T10:14:06.754Z", "date_modified": "2026-03-16T10:14:06.754Z", "_original_published": "2026-03-16T10:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "A new class of molten planet stores abundant sulfur in a perpetual magma ocean" }, "zh-Hans": { "title": "一类新型熔融行星在永恒的岩浆洋中储存着丰富的硫" }, "ja": { "title": "新たな種類の「溶融惑星」は、広大なマグマの海の中に豊富な硫黄を蓄えている" }, "zh-Hant": { "title": "一類新型熔融行星在永恆的岩漿洋中儲存著豐富的硫" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scientists-reveal-a-ne.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-16  A new class of molten planet stores abundant sulfur in a perpetual magma ocean (phys.org)" }, { "title": "气候减缓措施带来的空气污染减少能否提高作物产量并降低饥饿风险?", "summary": "Could reduced air pollution from climate mitigation boost crop yields and lower hunger risk?", "content_text": "Could reduced air pollution from climate mitigation boost crop yields and lower hunger risk? #environment\n原文地址: https://phys.org/news/2026-03-air-pollution-climate-mitigation-boost.html", "content_html": "
\"scx1.b-cdn.net
Could reduced air pollution from climate mitigation boost crop yields and lower hunger risk? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692627521/", "url": "https://phys.org/news/2026-03-air-pollution-climate-mitigation-boost.html", "date_published": "2026-03-16T10:14:06.750Z", "date_modified": "2026-03-16T10:14:06.750Z", "_original_published": "2026-03-16T10:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Could reduced air pollution from climate mitigation boost crop yields and lower hunger risk?" }, "zh-Hans": { "title": "气候减缓措施带来的空气污染减少能否提高作物产量并降低饥饿风险?" }, "ja": { "title": "気候変動対策による大気汚染の低減は、作物の収穫量を増やし、飢餓のリスクを軽減する可能性があるだろうか?" }, "zh-Hant": { "title": "氣候減緩措施帶來的空氣汙染減少能否提高作物產量並降低飢餓風險?" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/african-farm.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-16  Could reduced air pollution from climate mitigation boost crop yields and lower hunger risk? (phys.org)" }, { "title": "考古学家揭示了青铜时代纺织品的制作工艺", "summary": "Archaeologists untangle how Bronze Age textiles were made", "content_text": "Archaeologists untangle how Bronze Age textiles were made #archaeology\n原文地址: https://phys.org/news/2026-03-archaeologists-untangle-bronze-age-textiles.html", "content_html": "
\"scx1.b-cdn.net
Archaeologists untangle how Bronze Age textiles were made (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/12/en_phys_2026_03_16__news692265841/", "url": "https://phys.org/news/2026-03-archaeologists-untangle-bronze-age-textiles.html", "date_published": "2026-03-16T00:05:54.606Z", "date_modified": "2026-03-16T00:05:54.606Z", "_original_published": "2026-03-16T00:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Archaeologists untangle how Bronze Age textiles were made" }, "zh-Hans": { "title": "考古学家揭示了青铜时代纺织品的制作工艺" }, "ja": { "title": "考古学者たちが、青銅器時代の織物の製造方法を解明した" }, "zh-Hant": { "title": "考古學家揭示了青銅時代紡織品的製作工藝" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/archaeologists-untangl.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-16  Archaeologists untangle how Bronze Age textiles were made (phys.org)" }, { "title": "威尔士河流中检测出来自跳蚤防治和绵羊浸泡药剂的农药,其浓度已达到有害水平", "summary": "Pesticides from flea treatments and sheep dips found at damaging levels in Welsh rivers", "content_text": "Pesticides from flea treatments and sheep dips found at damaging levels in Welsh rivers #environment\n原文地址: https://phys.org/news/2026-03-pesticides-flea-treatments-sheep-dips.html", "content_html": "
\"scx1.b-cdn.net
Pesticides from flea treatments and sheep dips found at damaging levels in Welsh rivers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692435785/", "url": "https://phys.org/news/2026-03-pesticides-flea-treatments-sheep-dips.html", "date_published": "2026-03-15T22:30:50.689Z", "date_modified": "2026-03-15T22:30:50.689Z", "_original_published": "2026-03-15T22:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pesticides from flea treatments and sheep dips found at damaging levels in Welsh rivers" }, "zh-Hans": { "title": "威尔士河流中检测出来自跳蚤防治和绵羊浸泡药剂的农药,其浓度已达到有害水平" }, "ja": { "title": "ウェールズの河川で、ノミ駆除剤や羊用薬浴剤に含まれる農薬が有害なレベルで検出された" }, "zh-Hant": { "title": "威爾士河流中檢測出來自跳蚤防治和綿羊浸泡藥劑的農藥,其濃度已達到有害水平" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/flea-treatments-and-sh.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-16  Pesticides from flea treatments and sheep dips found at damaging levels in Welsh rivers (phys.org)" }, { "title": "“生命是奇迹”,但从灾难中吸取教训却并非如此:2011年日本地震和海啸带来的启示", "summary": "''Life is a miracle,'' but learning from disasters isn''t: Lessons from Japan''s 2011 earthquake and tsunami", "content_text": "''Life is a miracle,'' but learning from disasters isn''t: Lessons from Japan''s 2011 earthquake and tsunami #environment\n原文地址: https://phys.org/news/2026-03-life-miracle-disasters-isnt-lessons.html", "content_html": "
\"scx1.b-cdn.net
''Life is a miracle,'' but learning from disasters isn''t: Lessons from Japan''s 2011 earthquake and tsunami (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692371882/", "url": "https://phys.org/news/2026-03-life-miracle-disasters-isnt-lessons.html", "date_published": "2026-03-15T20:39:46.787Z", "date_modified": "2026-03-15T20:39:46.787Z", "_original_published": "2026-03-15T20:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "''Life is a miracle,'' but learning from disasters isn''t: Lessons from Japan''s 2011 earthquake and tsunami" }, "zh-Hans": { "title": "“生命是奇迹”,但从灾难中吸取教训却并非如此:2011年日本地震和海啸带来的启示" }, "ja": { "title": "「人生は奇跡だ」が、災害から学ぶことはそうではない:2011年の東日本大震災から得た教訓" }, "zh-Hant": { "title": "“生命是奇蹟”,但從災難中吸取教訓卻並非如此:2011年日本地震和海嘯帶來的啟示" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2019/1-tsunami.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-16  ''Life is a miracle,'' but learning from disasters isn''t: Lessons from Japan''s 2011 earthquake and tsunami (phys.org)" }, { "title": "海平面上升威胁着屏障岛,但海鸟粪便或能加速其恢复", "summary": "Rising seas threaten barrier islands, but seabird guano could speed recovery", "content_text": "Rising seas threaten barrier islands, but seabird guano could speed recovery #plants #animals\n原文地址: https://phys.org/news/2026-03-seas-threaten-barrier-islands-seabird.html", "content_html": "
\"scx1.b-cdn.net
Rising seas threaten barrier islands, but seabird guano could speed recovery (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692372392/", "url": "https://phys.org/news/2026-03-seas-threaten-barrier-islands-seabird.html", "date_published": "2026-03-15T19:03:56.370Z", "date_modified": "2026-03-15T19:03:56.370Z", "_original_published": "2026-03-15T19:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Rising seas threaten barrier islands, but seabird guano could speed recovery" }, "zh-Hans": { "title": "海平面上升威胁着屏障岛,但海鸟粪便或能加速其恢复" }, "ja": { "title": "海面上昇がバリア島を脅かしているが、海鳥の糞が回復を早める可能性がある" }, "zh-Hant": { "title": "海平面上升威脅著屏障島,但海鳥糞便或能加速其恢復" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/seabirds-as-architects.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-16  Rising seas threaten barrier islands, but seabird guano could speed recovery (phys.org)" }, { "title": "新型显微镜为动量空间提供了更清晰的视图", "summary": "New microscope offers sharper view into momentum space", "content_text": "New microscope offers sharper view into momentum space #condensed #matter\n原文地址: https://phys.org/news/2026-03-microscope-sharper-view-momentum-space.html", "content_html": "
\"scx1.b-cdn.net
New microscope offers sharper view into momentum space (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692542609/", "url": "https://phys.org/news/2026-03-microscope-sharper-view-momentum-space.html", "date_published": "2026-03-15T19:03:56.366Z", "date_modified": "2026-03-15T19:03:56.366Z", "_original_published": "2026-03-15T19:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "New microscope offers sharper view into momentum space" }, "zh-Hans": { "title": "新型显微镜为动量空间提供了更清晰的视图" }, "ja": { "title": "新しい顕微鏡が、運動量空間をより鮮明に映し出す" }, "zh-Hant": { "title": "新型顯微鏡為動量空間提供了更清晰的視圖" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-sharper-view-into-mo.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-16  New microscope offers sharper view into momentum space (phys.org)" }, { "title": "雪崩风险正在上升——研究人员表示,治理水平必须随之提升", "summary": "Avalanche risks are rising—researchers say governance must rise with them", "content_text": "Avalanche risks are rising—researchers say governance must rise with them #earth #sciences\n原文地址: https://phys.org/news/2026-03-avalanche.html", "content_html": "
\"scx1.b-cdn.net
Avalanche risks are rising—researchers say governance must rise with them (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692357725/", "url": "https://phys.org/news/2026-03-avalanche.html", "date_published": "2026-03-15T17:43:51.179Z", "date_modified": "2026-03-15T17:43:51.179Z", "_original_published": "2026-03-15T17:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Avalanche risks are rising—researchers say governance must rise with them" }, "zh-Hans": { "title": "雪崩风险正在上升——研究人员表示,治理水平必须随之提升" }, "ja": { "title": "雪崩の危険性が高まっている――研究者らは、ガバナンスもそれに合わせて強化されなければならないと指摘している" }, "zh-Hant": { "title": "雪崩風險正在上升——研究人員表示,治理水平必須隨之提升" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/avalanche-risks-are-ri.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-16  Avalanche risks are rising—researchers say governance must rise with them (phys.org)" }, { "title": "模型预测,到2067年,斯威茨冰川的消融量可能与整个南极洲的冰量损失相当", "summary": "Models warn Thwaites Glacier could rival entire Antarctic ice loss by 2067", "content_text": "Models warn Thwaites Glacier could rival entire Antarctic ice loss by 2067 #earth #sciences\n原文地址: https://phys.org/news/2026-03-thwaites-glacier-rival-entire-antarctic.html", "content_html": "
\"scx1.b-cdn.net
Models warn Thwaites Glacier could rival entire Antarctic ice loss by 2067 (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692613890/", "url": "https://phys.org/news/2026-03-thwaites-glacier-rival-entire-antarctic.html", "date_published": "2026-03-15T17:11:51.839Z", "date_modified": "2026-03-15T17:11:51.839Z", "_original_published": "2026-03-15T17:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Models warn Thwaites Glacier could rival entire Antarctic ice loss by 2067" }, "zh-Hans": { "title": "模型预测,到2067年,斯威茨冰川的消融量可能与整个南极洲的冰量损失相当" }, "ja": { "title": "モデルによると、スウェイツ氷河の融解量は2067年までに南極全体の氷の減少量に匹敵する可能性がある" }, "zh-Hant": { "title": "模型預測,到2067年,斯威茨冰川的消融量可能與整個南極洲的冰量損失相當" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/models-warn-thwaites-g.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-16  Models warn Thwaites Glacier could rival entire Antarctic ice loss by 2067 (phys.org)" }, { "title": "CHEOPS的发现打破了行星形成定律", "summary": "CHEOPS discovery defies planetary formation rules", "content_text": "CHEOPS discovery defies planetary formation rules #astronomy\n原文地址: https://phys.org/news/2026-03-cheops-discovery-defies-planetary-formation.html", "content_html": "
\"scx1.b-cdn.net
CHEOPS discovery defies planetary formation rules (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692612951/", "url": "https://phys.org/news/2026-03-cheops-discovery-defies-planetary-formation.html", "date_published": "2026-03-15T16:40:04.348Z", "date_modified": "2026-03-15T16:40:04.348Z", "_original_published": "2026-03-15T16:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "CHEOPS discovery defies planetary formation rules" }, "zh-Hans": { "title": "CHEOPS的发现打破了行星形成定律" }, "ja": { "title": "キオプスの発見は惑星形成の定説に反する" }, "zh-Hant": { "title": "CHEOPS的發現打破了行星形成定律" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cheops-discovery-defie.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-16  CHEOPS discovery defies planetary formation rules (phys.org)" }, { "title": "物理学家在常压下打破了长期保持的高温超导纪录", "summary": "Physicists break longstanding high-temperature superconductivity record at ambient pressure", "content_text": "Physicists break longstanding high-temperature superconductivity record at ambient pressure #condensed #matter\n原文地址: https://phys.org/news/2026-03-ceramic-shatters-longstanding-high-temperature.html", "content_html": "
\"scx1.b-cdn.net
Physicists break longstanding high-temperature superconductivity record at ambient pressure (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692362507/", "url": "https://phys.org/news/2026-03-ceramic-shatters-longstanding-high-temperature.html", "date_published": "2026-03-15T16:08:10.273Z", "date_modified": "2026-03-15T16:08:10.273Z", "_original_published": "2026-03-15T16:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Physicists break longstanding high-temperature superconductivity record at ambient pressure" }, "zh-Hans": { "title": "物理学家在常压下打破了长期保持的高温超导纪录" }, "ja": { "title": "物理学者が常圧下での高温超伝導の長期にわたる記録を更新した" }, "zh-Hant": { "title": "物理學家在常壓下打破了長期保持的高溫超導紀錄" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/physicists-break-super.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-16  Physicists break longstanding high-temperature superconductivity record at ambient pressure (phys.org)" }, { "title": "研究显示:北美“热穹顶”造就了赢家与输家", "summary": "North America ''heat dome'' left winners and losers: Study", "content_text": "North America ''heat dome'' left winners and losers: Study #ecology\n原文地址: https://phys.org/news/2026-03-north-america-dome-left-winners.html", "content_html": "
\"scx1.b-cdn.net
North America ''heat dome'' left winners and losers: Study (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692455047/", "url": "https://phys.org/news/2026-03-north-america-dome-left-winners.html", "date_published": "2026-03-15T15:35:46.696Z", "date_modified": "2026-03-15T15:35:46.696Z", "_original_published": "2026-03-15T15:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "North America ''heat dome'' left winners and losers: Study" }, "zh-Hans": { "title": "研究显示:北美“热穹顶”造就了赢家与输家" }, "ja": { "title": "北米の「ヒートドーム」がもたらした勝者と敗者:研究" }, "zh-Hant": { "title": "研究顯示:北美“熱穹頂”造就了贏家與輸家" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/serious-wildfires-hit.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-15  North America ''heat dome'' left winners and losers: Study (phys.org)" }, { "title": "TESS发现了一颗围绕邻近恒星运行的超级地球系外行星", "summary": "TESS discovers a super-Earth exoplanet orbiting nearby star", "content_text": "TESS discovers a super-Earth exoplanet orbiting nearby star #astronomy\n原文地址: https://phys.org/news/2026-03-tess-super-earth-exoplanet-orbiting.html", "content_html": "
\"scx1.b-cdn.net
TESS discovers a super-Earth exoplanet orbiting nearby star (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692524588/", "url": "https://phys.org/news/2026-03-tess-super-earth-exoplanet-orbiting.html", "date_published": "2026-03-15T15:03:50.762Z", "date_modified": "2026-03-15T15:03:50.762Z", "_original_published": "2026-03-15T15:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "TESS discovers a super-Earth exoplanet orbiting nearby star" }, "zh-Hans": { "title": "TESS发现了一颗围绕邻近恒星运行的超级地球系外行星" }, "ja": { "title": "TESSが近傍の恒星を公転するスーパーアース型系外惑星を発見" }, "zh-Hant": { "title": "TESS發現了一顆圍繞鄰近恆星運行的超級地球系外行星" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/tess-discovers-a-super.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-15  TESS discovers a super-Earth exoplanet orbiting nearby star (phys.org)" }, { "title": "最近探测到的超高能中微子是否与新物理学有关?", "summary": "Could a recently detected ultra-high-energy neutrino be linked to new physics?", "content_text": "Could a recently detected ultra-high-energy neutrino be linked to new physics? #general #physics\n原文地址: https://phys.org/news/2026-03-ultra-high-energy-neutrino-linked.html", "content_html": "
\"scx1.b-cdn.net
Could a recently detected ultra-high-energy neutrino be linked to new physics? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692612651/", "url": "https://phys.org/news/2026-03-ultra-high-energy-neutrino-linked.html", "date_published": "2026-03-15T14:15:44.511Z", "date_modified": "2026-03-15T14:15:44.511Z", "_original_published": "2026-03-15T14:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Could a recently detected ultra-high-energy neutrino be linked to new physics?" }, "zh-Hans": { "title": "最近探测到的超高能中微子是否与新物理学有关?" }, "ja": { "title": "最近検出された超高エネルギーニュートリノは、新物理学と関連しているのだろうか?" }, "zh-Hant": { "title": "最近探測到的超高能中微子是否與新物理學有關?" } }, "tags": [ "General", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/could-a-recently-detec.jpg", "_tag_links": [ { "name": "General", "url": "https://i.buzzing.cc/phys/tags/general/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "03-15  Could a recently detected ultra-high-energy neutrino be linked to new physics? (phys.org)" }, { "title": "关于“基督教世界”的观念往往有失偏颇:中世纪欧洲关于信仰与权力的观念并非如此简单", "summary": "Notions of ''Christendom'' often miss the mark: Medieval Europe''s ideas about faith and power were not so simple", "content_text": "Notions of ''Christendom'' often miss the mark: Medieval Europe''s ideas about faith and power were not so simple #social #sciences\n原文地址: https://phys.org/news/2026-03-notions-christendom-medieval-europe-ideas.html", "content_html": "
\"scx1.b-cdn.net
Notions of ''Christendom'' often miss the mark: Medieval Europe''s ideas about faith and power were not so simple (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692448548/", "url": "https://phys.org/news/2026-03-notions-christendom-medieval-europe-ideas.html", "date_published": "2026-03-15T13:43:52.193Z", "date_modified": "2026-03-15T13:43:52.193Z", "_original_published": "2026-03-15T13:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Notions of ''Christendom'' often miss the mark: Medieval Europe''s ideas about faith and power were not so simple" }, "zh-Hans": { "title": "关于“基督教世界”的观念往往有失偏颇:中世纪欧洲关于信仰与权力的观念并非如此简单" }, "ja": { "title": "「キリスト教世界」という概念は、往々にして的を外している。中世ヨーロッパにおける信仰と権力に関する考え方は、それほど単純なものではなかったのだ。" }, "zh-Hant": { "title": "關於“基督教世界”的觀念往往有失偏頗:中世紀歐洲關於信仰與權力的觀念並非如此簡單" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/medieval-christian.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-15  Notions of ''Christendom'' often miss the mark: Medieval Europe''s ideas about faith and power were not so simple (phys.org)" }, { "title": "ATCA观测揭示奇特的脉冲星风星云Vela X", "summary": "ATCA observations probe peculiar pulsar wind nebula Vela X", "content_text": "ATCA observations probe peculiar pulsar wind nebula Vela X #astronomy\n原文地址: https://phys.org/news/2026-03-atca-probe-peculiar-pulsar-nebula.html", "content_html": "
\"scx1.b-cdn.net
ATCA observations probe peculiar pulsar wind nebula Vela X (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692440217/", "url": "https://phys.org/news/2026-03-atca-probe-peculiar-pulsar-nebula.html", "date_published": "2026-03-15T13:11:56.998Z", "date_modified": "2026-03-15T13:11:56.998Z", "_original_published": "2026-03-15T13:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "ATCA observations probe peculiar pulsar wind nebula Vela X" }, "zh-Hans": { "title": "ATCA观测揭示奇特的脉冲星风星云Vela X" }, "ja": { "title": "ATCAの観測データが、特異なパルサー風星雲「ベラX」を解明" }, "zh-Hant": { "title": "ATCA觀測揭示奇特的脈衝星風星雲Vela X" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/observations-probe-a-p-1.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-15  ATCA observations probe peculiar pulsar wind nebula Vela X (phys.org)" }, { "title": "整个北美地区的鸟类数量正在加速减少,尤其是在农业最为集约化的农业区", "summary": "Bird losses are accelerating across North America, particularly in farming regions where agriculture is most intensive", "content_text": "Bird losses are accelerating across North America, particularly in farming regions where agriculture is most intensive #plants #animals\n原文地址: https://phys.org/news/2026-03-bird-losses-north-america-farming.html", "content_html": "
\"scx1.b-cdn.net
Bird losses are accelerating across North America, particularly in farming regions where agriculture is most intensive (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_15__news692454746/", "url": "https://phys.org/news/2026-03-bird-losses-north-america-farming.html", "date_published": "2026-03-15T00:07:50.473Z", "date_modified": "2026-03-15T00:07:50.473Z", "_original_published": "2026-03-15T00:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bird losses are accelerating across North America, particularly in farming regions where agriculture is most intensive" }, "zh-Hans": { "title": "整个北美地区的鸟类数量正在加速减少,尤其是在农业最为集约化的农业区" }, "ja": { "title": "北米全域で鳥類の減少が加速しており、特に農業が最も盛んな地域でその傾向が顕著である" }, "zh-Hant": { "title": "整個北美地區的鳥類數量正在加速減少,尤其是在農業最為集約化的農業區" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/bird-losses-are-accele.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-15  Bird losses are accelerating across North America, particularly in farming regions where agriculture is most intensive (phys.org)" }, { "title": "新研究揭示了困扰锂离子电池的棘手问题", "summary": "Thorny issue plaguing lithium-ion batteries laid bare in new study", "content_text": "Thorny issue plaguing lithium-ion batteries laid bare in new study #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-thorny-issue-plaguing-lithium-ion.html", "content_html": "
\"scx1.b-cdn.net
Thorny issue plaguing lithium-ion batteries laid bare in new study (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692597155/", "url": "https://phys.org/news/2026-03-thorny-issue-plaguing-lithium-ion.html", "date_published": "2026-03-14T23:03:49.410Z", "date_modified": "2026-03-14T23:03:49.410Z", "_original_published": "2026-03-14T23:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Thorny issue plaguing lithium-ion batteries laid bare in new study" }, "zh-Hans": { "title": "新研究揭示了困扰锂离子电池的棘手问题" }, "ja": { "title": "リチウムイオン電池を悩ませている難題が、新たな研究で明らかに" }, "zh-Hant": { "title": "新研究揭示了困擾鋰離子電池的棘手問題" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/thorny-issue-plaguing-1.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-15  Thorny issue plaguing lithium-ion batteries laid bare in new study (phys.org)" }, { "title": "鳄鱼一年中可能拥有额外的生长周期:这对估算恐龙年龄为何重要", "summary": "Crocodiles can have extra growth cycles in a year: Why this matters for estimating the age of dinosaurs", "content_text": "Crocodiles can have extra growth cycles in a year: Why this matters for estimating the age of dinosaurs #paleontology #fossils\n原文地址: https://phys.org/news/2026-03-crocodiles-extra-growth-year-age.html", "content_html": "
\"scx1.b-cdn.net
Crocodiles can have extra growth cycles in a year: Why this matters for estimating the age of dinosaurs (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692454605/", "url": "https://phys.org/news/2026-03-crocodiles-extra-growth-year-age.html", "date_published": "2026-03-14T21:44:01.030Z", "date_modified": "2026-03-14T21:44:01.030Z", "_original_published": "2026-03-14T21:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Crocodiles can have extra growth cycles in a year: Why this matters for estimating the age of dinosaurs" }, "zh-Hans": { "title": "鳄鱼一年中可能拥有额外的生长周期:这对估算恐龙年龄为何重要" }, "ja": { "title": "ワニは1年に複数の成長期を迎えることがある:これが恐竜の年齢推定においてなぜ重要なのか" }, "zh-Hant": { "title": "鱷魚一年中可能擁有額外的生長週期:這對估算恐龍年齡為何重要" } }, "tags": [ "Paleontology", "&", "Fossils" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2020/crocodile.jpg", "_tag_links": [ { "name": "Paleontology", "url": "https://i.buzzing.cc/phys/tags/paleontology/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Fossils", "url": "https://i.buzzing.cc/phys/tags/fossils/" } ], "_lite_content_html": "03-15  Crocodiles can have extra growth cycles in a year: Why this matters for estimating the age of dinosaurs (phys.org)" }, { "title": "不止一个环,而是许多个:抗氧化酶家族的组装方式比此前认为的要多样得多", "summary": "Not one ring but many: Antioxidant enzyme family can assemble in far more diverse ways than previously thought", "content_text": "Not one ring but many: Antioxidant enzyme family can assemble in far more diverse ways than previously thought #biochemistry\n原文地址: https://phys.org/news/2026-03-antioxidant-enzyme-family-diverse-ways.html", "content_html": "
\"scx1.b-cdn.net
Not one ring but many: Antioxidant enzyme family can assemble in far more diverse ways than previously thought (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692372012/", "url": "https://phys.org/news/2026-03-antioxidant-enzyme-family-diverse-ways.html", "date_published": "2026-03-14T21:11:50.672Z", "date_modified": "2026-03-14T21:11:50.672Z", "_original_published": "2026-03-14T21:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Not one ring but many: Antioxidant enzyme family can assemble in far more diverse ways than previously thought" }, "zh-Hans": { "title": "不止一个环,而是许多个:抗氧化酶家族的组装方式比此前认为的要多样得多" }, "ja": { "title": "1つではなく、いくつも:抗酸化酵素ファミリーは、従来考えられていたよりもはるかに多様な形で集合できる" }, "zh-Hant": { "title": "不止一個環,而是許多個:抗氧化酶家族的組裝方式比此前認為的要多樣得多" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scientists-uncover-new-2.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "03-15  Not one ring but many: Antioxidant enzyme family can assemble in far more diverse ways than previously thought (phys.org)" }, { "title": "我们如何将塑料垃圾转化为醋:一项利用阳光的突破性成果", "summary": "How we turned plastic waste into vinegar: A sunlight‑powered breakthrough", "content_text": "How we turned plastic waste into vinegar: A sunlight‑powered breakthrough #polymers\n原文地址: https://phys.org/news/2026-03-plastic-vinegar-sunlightpowered-breakthrough.html", "content_html": "
\"scx1.b-cdn.net
How we turned plastic waste into vinegar: A sunlight‑powered breakthrough (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692529457/", "url": "https://phys.org/news/2026-03-plastic-vinegar-sunlightpowered-breakthrough.html", "date_published": "2026-03-14T20:07:47.191Z", "date_modified": "2026-03-14T20:07:47.191Z", "_original_published": "2026-03-14T20:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "How we turned plastic waste into vinegar: A sunlight‑powered breakthrough" }, "zh-Hans": { "title": "我们如何将塑料垃圾转化为醋:一项利用阳光的突破性成果" }, "ja": { "title": "プラスチック廃棄物を酢に変えた方法:太陽光を利用した画期的な技術" }, "zh-Hant": { "title": "我們如何將塑料垃圾轉化為醋:一項利用陽光的突破性成果" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/plastic-waste.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "03-15  How we turned plastic waste into vinegar: A sunlight‑powered breakthrough (phys.org)" }, { "title": "一种深海天然化合物通过双重机制靶向癌细胞", "summary": "Deep-sea natural compound targets cancer cells through a dual mechanism", "content_text": "Deep-sea natural compound targets cancer cells through a dual mechanism #biochemistry\n原文地址: https://phys.org/news/2026-03-deep-sea-natural-compound-cancer.html", "content_html": "
\"scx1.b-cdn.net
Deep-sea natural compound targets cancer cells through a dual mechanism (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692458374/", "url": "https://phys.org/news/2026-03-deep-sea-natural-compound-cancer.html", "date_published": "2026-03-14T19:04:00.726Z", "date_modified": "2026-03-14T19:04:00.726Z", "_original_published": "2026-03-14T19:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Deep-sea natural compound targets cancer cells through a dual mechanism" }, "zh-Hans": { "title": "一种深海天然化合物通过双重机制靶向癌细胞" }, "ja": { "title": "深海由来の天然化合物が、二重の作用機序を通じてがん細胞を標的とする" }, "zh-Hant": { "title": "一種深海天然化合物通過雙重機制靶向癌細胞" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/deep-sea-natural-compo-1.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "03-15  Deep-sea natural compound targets cancer cells through a dual mechanism (phys.org)" }, { "title": "阿拉斯加的冰川湖正在扩大,这增加了毁灭性溃决洪水的风险", "summary": "Alaska''s glacial lakes are expanding, increasing the risk of destructive outburst floods", "content_text": "Alaska''s glacial lakes are expanding, increasing the risk of destructive outburst floods #earth #sciences\n原文地址: https://phys.org/news/2026-03-alaska-glacial-lakes-destructive-outburst.html", "content_html": "
\"scx1.b-cdn.net
Alaska''s glacial lakes are expanding, increasing the risk of destructive outburst floods (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692357673/", "url": "https://phys.org/news/2026-03-alaska-glacial-lakes-destructive-outburst.html", "date_published": "2026-03-14T18:31:57.921Z", "date_modified": "2026-03-14T18:31:57.921Z", "_original_published": "2026-03-14T18:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Alaska''s glacial lakes are expanding, increasing the risk of destructive outburst floods" }, "zh-Hans": { "title": "阿拉斯加的冰川湖正在扩大,这增加了毁灭性溃决洪水的风险" }, "ja": { "title": "アラスカの氷河湖が拡大しており、壊滅的な決壊洪水のリスクが高まっている" }, "zh-Hant": { "title": "阿拉斯加的冰川湖正在擴大,這增加了毀滅性潰決洪水的風險" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/alaskas-glacial-lakes.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-15  Alaska''s glacial lakes are expanding, increasing the risk of destructive outburst floods (phys.org)" }, { "title": "研究显示,伊顿大火在洛杉矶引发了一波污染浪潮", "summary": "Eaton fire sent a pollution wave across Los Angeles, study shows", "content_text": "Eaton fire sent a pollution wave across Los Angeles, study shows #earth #sciences\n原文地址: https://phys.org/news/2026-03-eaton-pollution-los-angeles.html", "content_html": "
\"scx1.b-cdn.net
Eaton fire sent a pollution wave across Los Angeles, study shows (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692612614/", "url": "https://phys.org/news/2026-03-eaton-pollution-los-angeles.html", "date_published": "2026-03-14T18:16:00.425Z", "date_modified": "2026-03-14T18:16:00.425Z", "_original_published": "2026-03-14T18:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Eaton fire sent a pollution wave across Los Angeles, study shows" }, "zh-Hans": { "title": "研究显示,伊顿大火在洛杉矶引发了一波污染浪潮" }, "ja": { "title": "研究によると、イートンでの火災がロサンゼルス全域に汚染物質の波を広げたことが明らかになった" }, "zh-Hant": { "title": "研究顯示,伊頓大火在洛杉磯引發了一波汙染浪潮" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/eaton-fire-sent-a-poll.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-15  Eaton fire sent a pollution wave across Los Angeles, study shows (phys.org)" }, { "title": "新一代干涉式漫波光谱技术在脑血流监测中实现了20倍的信号增强", "summary": "Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring", "content_text": "Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring #optics #photonics\n原文地址: https://phys.org/news/2026-03-gen-interferometric-diffusing-spectroscopy-20x.html", "content_html": "
\"scx1.b-cdn.net
Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692509973/", "url": "https://phys.org/news/2026-03-gen-interferometric-diffusing-spectroscopy-20x.html", "date_published": "2026-03-14T17:12:04.694Z", "date_modified": "2026-03-14T17:12:04.694Z", "_original_published": "2026-03-14T17:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring" }, "zh-Hans": { "title": "新一代干涉式漫波光谱技术在脑血流监测中实现了20倍的信号增强" }, "ja": { "title": "次世代干渉拡散波分光法により、脳血流モニタリングで20倍の信号増幅を実現" }, "zh-Hant": { "title": "新一代干涉式漫波光譜技術在腦血流監測中實現了20倍的信號增強" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ieee-researchers-achie-2.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03-15  Next-gen interferometric diffusing wave spectroscopy achieves 20x signal boost in cerebral blood flow monitoring (phys.org)" }, { "title": "行星状星云中首次探测到干冰", "summary": "Dry ice detected in a planetary nebula for the first time", "content_text": "Dry ice detected in a planetary nebula for the first time #astronomy\n原文地址: https://phys.org/news/2026-03-dry-ice-planetary-nebula.html", "content_html": "
\"scx1.b-cdn.net
Dry ice detected in a planetary nebula for the first time (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692353033/", "url": "https://phys.org/news/2026-03-dry-ice-planetary-nebula.html", "date_published": "2026-03-14T16:07:53.918Z", "date_modified": "2026-03-14T16:07:53.918Z", "_original_published": "2026-03-14T16:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Dry ice detected in a planetary nebula for the first time" }, "zh-Hans": { "title": "行星状星云中首次探测到干冰" }, "ja": { "title": "惑星状星雲からドライアイスが初めて検出された" }, "zh-Hant": { "title": "行星狀星雲中首次探測到乾冰" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/dry-ice-in-a-planetary.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-15  Dry ice detected in a planetary nebula for the first time (phys.org)" }, { "title": "地中海的海啸风险:尼斯为何应制定疏散计划", "summary": "Tsunami risks in the Mediterranean: Why Nice should prepare an evacuation plan", "content_text": "Tsunami risks in the Mediterranean: Why Nice should prepare an evacuation plan #environment\n原文地址: https://phys.org/news/2026-03-tsunami-mediterranean-nice-evacuation.html", "content_html": "
\"scx1.b-cdn.net
Tsunami risks in the Mediterranean: Why Nice should prepare an evacuation plan (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692372533/", "url": "https://phys.org/news/2026-03-tsunami-mediterranean-nice-evacuation.html", "date_published": "2026-03-14T15:04:01.439Z", "date_modified": "2026-03-14T15:04:01.439Z", "_original_published": "2026-03-14T15:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Tsunami risks in the Mediterranean: Why Nice should prepare an evacuation plan" }, "zh-Hans": { "title": "地中海的海啸风险:尼斯为何应制定疏散计划" }, "ja": { "title": "地中海における津波のリスク:ニースが避難計画を策定すべき理由" }, "zh-Hant": { "title": "地中海的海嘯風險:尼斯為何應制定疏散計劃" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2018/2-tsunami.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-14  Tsunami risks in the Mediterranean: Why Nice should prepare an evacuation plan (phys.org)" }, { "title": "研究发现,感光细胞的细胞死亡是可逆的", "summary": "Cell death in photoreceptor cells is reversible, study finds", "content_text": "Cell death in photoreceptor cells is reversible, study finds #cell #microbiology\n原文地址: https://phys.org/news/2026-03-cell-death-photoreceptor-cells-reversible.html", "content_html": "
\"scx1.b-cdn.net
Cell death in photoreceptor cells is reversible, study finds (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692458365/", "url": "https://phys.org/news/2026-03-cell-death-photoreceptor-cells-reversible.html", "date_published": "2026-03-14T14:15:42.674Z", "date_modified": "2026-03-14T14:15:42.674Z", "_original_published": "2026-03-14T14:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cell death in photoreceptor cells is reversible, study finds" }, "zh-Hans": { "title": "研究发现,感光细胞的细胞死亡是可逆的" }, "ja": { "title": "研究によると、光受容細胞における細胞死は可逆的であることが判明した" }, "zh-Hant": { "title": "研究發現,感光細胞的細胞死亡是可逆的" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cell-death-in-photorec.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-14  Cell death in photoreceptor cells is reversible, study finds (phys.org)" }, { "title": "核磁共振(NMR)技术无需同位素标记即可揭示治疗性抗体的位点特异性结构特征", "summary": "NMR reveals site-specific structural signatures of therapeutic antibodies without isotope labeling", "content_text": "NMR reveals site-specific structural signatures of therapeutic antibodies without isotope labeling #biochemistry\n原文地址: https://phys.org/news/2026-03-nmr-reveals-site-specific-signatures.html", "content_html": "
\"scx1.b-cdn.net
NMR reveals site-specific structural signatures of therapeutic antibodies without isotope labeling (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692462134/", "url": "https://phys.org/news/2026-03-nmr-reveals-site-specific-signatures.html", "date_published": "2026-03-14T13:43:44.864Z", "date_modified": "2026-03-14T13:43:44.864Z", "_original_published": "2026-03-14T13:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "NMR reveals site-specific structural signatures of therapeutic antibodies without isotope labeling" }, "zh-Hans": { "title": "核磁共振(NMR)技术无需同位素标记即可揭示治疗性抗体的位点特异性结构特征" }, "ja": { "title": "NMRは、同位体標識を行わずに、治療用抗体の部位特異的な構造的特徴を明らかにする" }, "zh-Hant": { "title": "核磁共振(NMR)技術無需同位素標記即可揭示治療性抗體的位點特異性結構特徵" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nmr-reveals-site-speci.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "03-14  NMR reveals site-specific structural signatures of therapeutic antibodies without isotope labeling (phys.org)" }, { "title": "周六精选:无聊声音的神经学;一只巨型鳄鱼;与索尔同游", "summary": "Saturday Citations: Neurology of boring sounds; one huge croc; Travels With Sol", "content_text": "Saturday Citations: Neurology of boring sounds; one huge croc; Travels With Sol #other\n原文地址: https://phys.org/news/2026-03-saturday-citations-neurology-huge-croc.html", "content_html": "
\"scx1.b-cdn.net
Saturday Citations: Neurology of boring sounds; one huge croc; Travels With Sol (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692620799/", "url": "https://phys.org/news/2026-03-saturday-citations-neurology-huge-croc.html", "date_published": "2026-03-14T13:11:48.393Z", "date_modified": "2026-03-14T13:11:48.393Z", "_original_published": "2026-03-14T13:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Saturday Citations: Neurology of boring sounds; one huge croc; Travels With Sol" }, "zh-Hans": { "title": "周六精选:无聊声音的神经学;一只巨型鳄鱼;与索尔同游" }, "ja": { "title": "土曜日の引用:退屈な音の神経学、巨大なワニ、ソルとの旅" }, "zh-Hant": { "title": "週六精選:無聊聲音的神經學;一隻巨型鱷魚;與索爾同遊" } }, "tags": [ "Other" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/saturday-citations-neu.jpg", "_tag_links": [ { "name": "Other", "url": "https://i.buzzing.cc/phys/tags/other/" } ], "_lite_content_html": "03-14  Saturday Citations: Neurology of boring sounds; one huge croc; Travels With Sol (phys.org)" }, { "title": "增强型荧光技术揭示了快速、协调的蛋白质折叠过程", "summary": "Enhanced fluorescence technique illuminates rapid, coordinated protein folding", "content_text": "Enhanced fluorescence technique illuminates rapid, coordinated protein folding #biotechnology\n原文地址: https://phys.org/news/2026-03-fluorescence-technique-illuminates-rapid-protein.html", "content_html": "
\"scx1.b-cdn.net
Enhanced fluorescence technique illuminates rapid, coordinated protein folding (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692617118/", "url": "https://phys.org/news/2026-03-fluorescence-technique-illuminates-rapid-protein.html", "date_published": "2026-03-14T13:11:48.389Z", "date_modified": "2026-03-14T13:11:48.389Z", "_original_published": "2026-03-14T13:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Enhanced fluorescence technique illuminates rapid, coordinated protein folding" }, "zh-Hans": { "title": "增强型荧光技术揭示了快速、协调的蛋白质折叠过程" }, "ja": { "title": "改良された蛍光技術により、迅速かつ協調的なタンパク質の折り畳み過程が明らかになった" }, "zh-Hant": { "title": "增強型熒光技術揭示了快速、協調的蛋白質摺疊過程" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/enhanced-fluorescence.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-14  Enhanced fluorescence technique illuminates rapid, coordinated protein folding (phys.org)" }, { "title": "研究记录显示,新罕布什尔州一只年轻雌性鱼狸的活动范围达118公里", "summary": "Study documents record 118-kilometer dispersal by young female fisher in New Hampshire", "content_text": "Study documents record 118-kilometer dispersal by young female fisher in New Hampshire #ecology\n原文地址: https://phys.org/news/2026-03-documents-kilometer-dispersal-young-female.html", "content_html": "
\"scx1.b-cdn.net
Study documents record 118-kilometer dispersal by young female fisher in New Hampshire (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692685416/", "url": "https://phys.org/news/2026-03-documents-kilometer-dispersal-young-female.html", "date_published": "2026-03-14T12:08:22.983Z", "date_modified": "2026-03-14T12:08:22.983Z", "_original_published": "2026-03-14T12:00:11.000Z", "_original_language": "en", "_translations": { "en": { "title": "Study documents record 118-kilometer dispersal by young female fisher in New Hampshire" }, "zh-Hans": { "title": "研究记录显示,新罕布什尔州一只年轻雌性鱼狸的活动范围达118公里" }, "ja": { "title": "研究報告書によると、ニューハンプシャー州で若いメスのフィッシャーが118キロメートルに及ぶ移動をしたことが記録されている" }, "zh-Hant": { "title": "研究記錄顯示,新罕布什爾州一隻年輕雌性魚狸的活動範圍達118公里" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/longest-recorded-journ.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-14  Study documents record 118-kilometer dispersal by young female fisher in New Hampshire (phys.org)" }, { "title": "研究发现,虐待型上司会让员工感到“被非人化”,从而加剧职业倦怠", "summary": "Study finds abusive bosses can make workers feel ''dehumanized,'' fueling burnout", "content_text": "Study finds abusive bosses can make workers feel ''dehumanized,'' fueling burnout #economics #business\n原文地址: https://phys.org/news/2026-03-abusive-bosses-workers-dehumanized-fueling.html", "content_html": "
\"scx1.b-cdn.net
Study finds abusive bosses can make workers feel ''dehumanized,'' fueling burnout (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692685184/", "url": "https://phys.org/news/2026-03-abusive-bosses-workers-dehumanized-fueling.html", "date_published": "2026-03-14T11:52:53.679Z", "date_modified": "2026-03-14T11:52:53.679Z", "_original_published": "2026-03-14T11:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Study finds abusive bosses can make workers feel ''dehumanized,'' fueling burnout" }, "zh-Hans": { "title": "研究发现,虐待型上司会让员工感到“被非人化”,从而加剧职业倦怠" }, "ja": { "title": "研究によると、横暴な上司は従業員に「人間性を否定された」と感じさせ、バーンアウトを招く可能性がある" }, "zh-Hant": { "title": "研究發現,虐待型上司會讓員工感到“被非人化”,從而加劇職業倦怠" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/employee.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "03-14  Study finds abusive bosses can make workers feel ''dehumanized,'' fueling burnout (phys.org)" }, { "title": "发电细菌:一种以贝类为原料的凝胶如何监测废水和食品", "summary": "Bacteria that generate electricity: How a shellfish-based gel could monitor wastewater and food", "content_text": "Bacteria that generate electricity: How a shellfish-based gel could monitor wastewater and food #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-bacteria-generate-electricity-shellfish-based.html", "content_html": "
\"scx1.b-cdn.net
Bacteria that generate electricity: How a shellfish-based gel could monitor wastewater and food (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692685273/", "url": "https://phys.org/news/2026-03-bacteria-generate-electricity-shellfish-based.html", "date_published": "2026-03-14T11:20:27.388Z", "date_modified": "2026-03-14T11:20:27.388Z", "_original_published": "2026-03-14T11:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bacteria that generate electricity: How a shellfish-based gel could monitor wastewater and food" }, "zh-Hans": { "title": "发电细菌:一种以贝类为原料的凝胶如何监测废水和食品" }, "ja": { "title": "発電する細菌:貝類由来のゲルが廃水や食品を監視する仕組み" }, "zh-Hant": { "title": "發電細菌:一種以貝類為原料的凝膠如何監測廢水和食品" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-gel-based-system-a.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-14  Bacteria that generate electricity: How a shellfish-based gel could monitor wastewater and food (phys.org)" }, { "title": "一种在25年后才被发现的巴拿马新树种,如今已濒临灭绝", "summary": "New Panama tree species identified after 25 years is already endangered", "content_text": "New Panama tree species identified after 25 years is already endangered #ecology\n原文地址: https://phys.org/news/2026-03-panama-tree-species-years-endangered.html", "content_html": "
\"scx1.b-cdn.net
New Panama tree species identified after 25 years is already endangered (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692685122/", "url": "https://phys.org/news/2026-03-panama-tree-species-years-endangered.html", "date_published": "2026-03-14T09:44:50.607Z", "date_modified": "2026-03-14T09:44:50.607Z", "_original_published": "2026-03-14T09:32:45.000Z", "_original_language": "en", "_translations": { "en": { "title": "New Panama tree species identified after 25 years is already endangered" }, "zh-Hans": { "title": "一种在25年后才被发现的巴拿马新树种,如今已濒临灭绝" }, "ja": { "title": "25年ぶりに確認されたパナマの新種は、すでに絶滅の危機に瀕している" }, "zh-Hant": { "title": "一種在25年後才被發現的巴拿馬新樹種,如今已瀕臨滅絕" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-new-endemic-tree-spe.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-14  New Panama tree species identified after 25 years is already endangered (phys.org)" }, { "title": "圆周率日:从火箭到癌症研究,圆周率如何融入我们的生活", "summary": "Pi Day: From rockets to cancer research, here''s how the number pi is embedded in our lives", "content_text": "Pi Day: From rockets to cancer research, here''s how the number pi is embedded in our lives #mathematics\n原文地址: https://phys.org/news/2026-03-pi-day-rockets-cancer-embedded.html", "content_html": "
\"scx1.b-cdn.net
Pi Day: From rockets to cancer research, here''s how the number pi is embedded in our lives (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692684815/", "url": "https://phys.org/news/2026-03-pi-day-rockets-cancer-embedded.html", "date_published": "2026-03-14T09:28:34.773Z", "date_modified": "2026-03-14T09:28:34.773Z", "_original_published": "2026-03-14T09:27:33.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pi Day: From rockets to cancer research, here''s how the number pi is embedded in our lives" }, "zh-Hans": { "title": "圆周率日:从火箭到癌症研究,圆周率如何融入我们的生活" }, "ja": { "title": "「円周率の日」:ロケットからがん研究まで、円周率がいかに私たちの生活に深く根付いているか" }, "zh-Hant": { "title": "圓周率日:從火箭到癌症研究,圓周率如何融入我們的生活" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/from-rockets-to-cancer.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "03-14  Pi Day: From rockets to cancer research, here''s how the number pi is embedded in our lives (phys.org)" }, { "title": "澳大利亚被纳入全球鲨鱼和鳐鱼数据库", "summary": "Australia added to global sharks and rays database", "content_text": "Australia added to global sharks and rays database #plants #animals\n原文地址: https://phys.org/news/2026-03-australia-added-global-sharks-rays.html", "content_html": "
\"scx1.b-cdn.net
Australia added to global sharks and rays database (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692617164/", "url": "https://phys.org/news/2026-03-australia-added-global-sharks-rays.html", "date_published": "2026-03-14T02:00:43.235Z", "date_modified": "2026-03-14T02:00:43.235Z", "_original_published": "2026-03-14T02:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Australia added to global sharks and rays database" }, "zh-Hans": { "title": "澳大利亚被纳入全球鲨鱼和鳐鱼数据库" }, "ja": { "title": "オーストラリアが世界のサメ・エイデータベースに追加された" }, "zh-Hant": { "title": "澳大利亞被納入全球鯊魚和鰩魚數據庫" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/australia-mapped-into.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-14  Australia added to global sharks and rays database (phys.org)" }, { "title": "为何游泳者仍勇闯水中:研究揭示英国社区如何应对受污染的水域", "summary": "Why swimmers still dive in: Research shows how UK communities navigate polluted waters", "content_text": "Why swimmers still dive in: Research shows how UK communities navigate polluted waters #environment\n原文地址: https://phys.org/news/2026-03-swimmers-uk-communities-polluted.html", "content_html": "
\"scx1.b-cdn.net
Why swimmers still dive in: Research shows how UK communities navigate polluted waters (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_14__news692613646/", "url": "https://phys.org/news/2026-03-swimmers-uk-communities-polluted.html", "date_published": "2026-03-14T00:56:33.738Z", "date_modified": "2026-03-14T00:56:33.738Z", "_original_published": "2026-03-14T00:50:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why swimmers still dive in: Research shows how UK communities navigate polluted waters" }, "zh-Hans": { "title": "为何游泳者仍勇闯水中:研究揭示英国社区如何应对受污染的水域" }, "ja": { "title": "なぜ水泳客は依然として飛び込むのか:研究が明らかにした、英国の地域社会が汚染された水域とどう向き合っているか" }, "zh-Hant": { "title": "為何游泳者仍勇闖水中:研究揭示英國社區如何應對受汙染的水域" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/ocean-swimming.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-14  Why swimmers still dive in: Research shows how UK communities navigate polluted waters (phys.org)" }, { "title": "佛罗里达州马体外受精取得重大突破:冷冻解冻精子成功使卵子受精", "summary": "Horse IVF milestone in Florida: Frozen-thawed sperm fertilizes an egg", "content_text": "Horse IVF milestone in Florida: Frozen-thawed sperm fertilizes an egg #biotechnology\n原文地址: https://phys.org/news/2026-03-horse-ivf-milestone-florida-frozen.html", "content_html": "
\"scx1.b-cdn.net
Horse IVF milestone in Florida: Frozen-thawed sperm fertilizes an egg (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692617362/", "url": "https://phys.org/news/2026-03-horse-ivf-milestone-florida-frozen.html", "date_published": "2026-03-13T23:36:30.084Z", "date_modified": "2026-03-13T23:36:30.084Z", "_original_published": "2026-03-13T23:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Horse IVF milestone in Florida: Frozen-thawed sperm fertilizes an egg" }, "zh-Hans": { "title": "佛罗里达州马体外受精取得重大突破:冷冻解冻精子成功使卵子受精" }, "ja": { "title": "フロリダ州で馬の体外受精に画期的な進展:凍結・解凍された精子が卵子を受精させる" }, "zh-Hant": { "title": "佛羅里達州馬體外受精取得重大突破:冷凍解凍精子成功使卵子受精" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2023/race-horse.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-14  Horse IVF milestone in Florida: Frozen-thawed sperm fertilizes an egg (phys.org)" }, { "title": "在南卡罗来纳州的一片沼泽地中,研究人员揭开了萤火虫同步发光的奥秘", "summary": "In a South Carolina swamp, researchers uncover secrets of firefly synchrony", "content_text": "In a South Carolina swamp, researchers uncover secrets of firefly synchrony #ecology\n原文地址: https://phys.org/news/2026-03-south-carolina-swamp-uncover-secrets.html", "content_html": "
\"scx1.b-cdn.net
In a South Carolina swamp, researchers uncover secrets of firefly synchrony (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692630101/", "url": "https://phys.org/news/2026-03-south-carolina-swamp-uncover-secrets.html", "date_published": "2026-03-13T23:04:39.714Z", "date_modified": "2026-03-13T23:04:39.714Z", "_original_published": "2026-03-13T23:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "In a South Carolina swamp, researchers uncover secrets of firefly synchrony" }, "zh-Hans": { "title": "在南卡罗来纳州的一片沼泽地中,研究人员揭开了萤火虫同步发光的奥秘" }, "ja": { "title": "サウスカロライナ州の沼地で、研究者たちがホタルの集団発光の秘密を解明した" }, "zh-Hant": { "title": "在南卡羅來納州的一片沼澤地中,研究人員揭開了螢火蟲同步發光的奧秘" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/in-a-south-carolina-sw-1.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-14  In a South Carolina swamp, researchers uncover secrets of firefly synchrony (phys.org)" }, { "title": "处理不当的湿巾可能会在河流中释放微塑料", "summary": "Improperly disposed wet wipes could shed microplastics in rivers", "content_text": "Improperly disposed wet wipes could shed microplastics in rivers #environment\n原文地址: https://phys.org/news/2026-03-improperly-disposed-microplastics-rivers.html", "content_html": "
\"scx1.b-cdn.net
Improperly disposed wet wipes could shed microplastics in rivers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692628901/", "url": "https://phys.org/news/2026-03-improperly-disposed-microplastics-rivers.html", "date_published": "2026-03-13T22:48:39.872Z", "date_modified": "2026-03-13T22:48:39.872Z", "_original_published": "2026-03-13T22:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Improperly disposed wet wipes could shed microplastics in rivers" }, "zh-Hans": { "title": "处理不当的湿巾可能会在河流中释放微塑料" }, "ja": { "title": "不適切に廃棄されたウェットティッシュは、河川にマイクロプラスチックを流出させる恐れがある" }, "zh-Hant": { "title": "處理不當的溼巾可能會在河流中釋放微塑料" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/improperly-disposed-we.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-14  Improperly disposed wet wipes could shed microplastics in rivers (phys.org)" }, { "title": "“蜻蜓”任务进入旋翼机集成与测试阶段", "summary": "Dragonfly mission begins rotorcraft integration, testing stage", "content_text": "Dragonfly mission begins rotorcraft integration, testing stage #space #exploration\n原文地址: https://phys.org/news/2026-03-dragonfly-mission-rotorcraft-stage.html", "content_html": "
\"scx1.b-cdn.net
Dragonfly mission begins rotorcraft integration, testing stage (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692613155/", "url": "https://phys.org/news/2026-03-dragonfly-mission-rotorcraft-stage.html", "date_published": "2026-03-13T22:48:39.868Z", "date_modified": "2026-03-13T22:48:39.868Z", "_original_published": "2026-03-13T22:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Dragonfly mission begins rotorcraft integration, testing stage" }, "zh-Hans": { "title": "“蜻蜓”任务进入旋翼机集成与测试阶段" }, "ja": { "title": "「ドラゴンフライ」ミッション、回転翼機の統合・試験段階へ" }, "zh-Hant": { "title": "“蜻蜓”任務進入旋翼機集成與測試階段" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/dragonfly-mission-begi.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-14  Dragonfly mission begins rotorcraft integration, testing stage (phys.org)" }, { "title": "新型DNA检测工具在识别野生动物遗传风险方面优于传统方法", "summary": "New DNA tools outperform traditional methods for detecting genetic risk in wildlife", "content_text": "New DNA tools outperform traditional methods for detecting genetic risk in wildlife #ecology\n原文地址: https://phys.org/news/2026-03-dna-tools-outperform-traditional-methods.html", "content_html": "
\"scx1.b-cdn.net
New DNA tools outperform traditional methods for detecting genetic risk in wildlife (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692628601/", "url": "https://phys.org/news/2026-03-dna-tools-outperform-traditional-methods.html", "date_published": "2026-03-13T22:32:35.278Z", "date_modified": "2026-03-13T22:32:35.278Z", "_original_published": "2026-03-13T22:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "New DNA tools outperform traditional methods for detecting genetic risk in wildlife" }, "zh-Hans": { "title": "新型DNA检测工具在识别野生动物遗传风险方面优于传统方法" }, "ja": { "title": "野生生物の遺伝的リスクを検出する上で、新しいDNA解析手法は従来の方法よりも優れた成果を上げている" }, "zh-Hant": { "title": "新型DNA檢測工具在識別野生動物遺傳風險方面優於傳統方法" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-dna-tools-outperfo.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-14  New DNA tools outperform traditional methods for detecting genetic risk in wildlife (phys.org)" }, { "title": "研究人员制备出室温下工作的二维多铁性金属", "summary": "Researchers realize room-temperature two-dimensional multiferroic metal", "content_text": "Researchers realize room-temperature two-dimensional multiferroic metal #condensed #matter\n原文地址: https://phys.org/news/2026-03-room-temperature-dimensional-multiferroic-metal.html", "content_html": "
\"scx1.b-cdn.net
Researchers realize room-temperature two-dimensional multiferroic metal (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692627941/", "url": "https://phys.org/news/2026-03-room-temperature-dimensional-multiferroic-metal.html", "date_published": "2026-03-13T22:00:33.613Z", "date_modified": "2026-03-13T22:00:33.613Z", "_original_published": "2026-03-13T22:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Researchers realize room-temperature two-dimensional multiferroic metal" }, "zh-Hans": { "title": "研究人员制备出室温下工作的二维多铁性金属" }, "ja": { "title": "研究者らが室温で動作する二次元マルチフェロイック金属を実現" }, "zh-Hant": { "title": "研究人員製備出室溫下工作的二維多鐵性金屬" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-realize-ro.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-14  Researchers realize room-temperature two-dimensional multiferroic metal (phys.org)" }, { "title": "从猜测到指导:机器学习如何加速水分解光催化剂的掺杂剂设计", "summary": "From guesswork to guidance: How machine learning speeds dopant design for water-splitting photocatalysts", "content_text": "From guesswork to guidance: How machine learning speeds dopant design for water-splitting photocatalysts #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-guesswork-guidance-machine-dopant-photocatalysts.html", "content_html": "
\"scx1.b-cdn.net
From guesswork to guidance: How machine learning speeds dopant design for water-splitting photocatalysts (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692626861/", "url": "https://phys.org/news/2026-03-guesswork-guidance-machine-dopant-photocatalysts.html", "date_published": "2026-03-13T21:44:31.936Z", "date_modified": "2026-03-13T21:44:31.936Z", "_original_published": "2026-03-13T21:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "From guesswork to guidance: How machine learning speeds dopant design for water-splitting photocatalysts" }, "zh-Hans": { "title": "从猜测到指导:机器学习如何加速水分解光催化剂的掺杂剂设计" }, "ja": { "title": "推測から指針へ:機械学習が水の分解用光触媒のドーパント設計をいかに加速させるか" }, "zh-Hant": { "title": "從猜測到指導:機器學習如何加速水分解光催化劑的摻雜劑設計" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-materials-informat.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-14  From guesswork to guidance: How machine learning speeds dopant design for water-splitting photocatalysts (phys.org)" }, { "title": "一个质量为100个太阳质量的黑洞合并会引起时空涟漪,并可能在伽马射线波段闪现", "summary": "A 100-solar-mass black hole merger ripples spacetime, and may flash in gamma rays", "content_text": "A 100-solar-mass black hole merger ripples spacetime, and may flash in gamma rays #astronomy\n原文地址: https://phys.org/news/2026-03-solar-mass-black-hole-merger.html", "content_html": "
\"scx1.b-cdn.net
A 100-solar-mass black hole merger ripples spacetime, and may flash in gamma rays (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692625490/", "url": "https://phys.org/news/2026-03-solar-mass-black-hole-merger.html", "date_published": "2026-03-13T21:28:39.221Z", "date_modified": "2026-03-13T21:28:39.221Z", "_original_published": "2026-03-13T21:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "A 100-solar-mass black hole merger ripples spacetime, and may flash in gamma rays" }, "zh-Hans": { "title": "一个质量为100个太阳质量的黑洞合并会引起时空涟漪,并可能在伽马射线波段闪现" }, "ja": { "title": "太陽質量の100倍のブラックホールの合体は時空に波紋を広げ、ガンマ線フラッシュを放出する可能性がある" }, "zh-Hant": { "title": "一個質量為100個太陽質量的黑洞合併會引起時空漣漪,並可能在伽馬射線波段閃現" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-100-solar-mass-black.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-14  A 100-solar-mass black hole merger ripples spacetime, and may flash in gamma rays (phys.org)" }, { "title": "客户或许总是对的,但在客户服务中,道歉反而会适得其反", "summary": "The customer might always be right, but apologies actually backfire in customer service", "content_text": "The customer might always be right, but apologies actually backfire in customer service #economics #business\n原文地址: https://phys.org/news/2026-03-customer-backfire.html", "content_html": "
\"scx1.b-cdn.net
The customer might always be right, but apologies actually backfire in customer service (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692613452/", "url": "https://phys.org/news/2026-03-customer-backfire.html", "date_published": "2026-03-13T21:28:39.218Z", "date_modified": "2026-03-13T21:28:39.218Z", "_original_published": "2026-03-13T21:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The customer might always be right, but apologies actually backfire in customer service" }, "zh-Hans": { "title": "客户或许总是对的,但在客户服务中,道歉反而会适得其反" }, "ja": { "title": "「お客様は常に正しい」と言われるが、カスタマーサービスにおいて謝罪はかえって逆効果になることがある" }, "zh-Hant": { "title": "客戶或許總是對的,但在客戶服務中,道歉反而會適得其反" } }, "tags": [ "Economics", "&", "Business" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/food-delivery.jpg", "_tag_links": [ { "name": "Economics", "url": "https://i.buzzing.cc/phys/tags/economics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Business", "url": "https://i.buzzing.cc/phys/tags/business/" } ], "_lite_content_html": "03-14  The customer might always be right, but apologies actually backfire in customer service (phys.org)" }, { "title": "柔性蛋白区域如何通过基序和化学环境保持其功能", "summary": "How flexible protein regions retain their function via motifs and chemical context", "content_text": "How flexible protein regions retain their function via motifs and chemical context #cell #microbiology\n原文地址: https://phys.org/news/2026-03-flexible-protein-regions-retain-function.html", "content_html": "
\"scx1.b-cdn.net
How flexible protein regions retain their function via motifs and chemical context (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692625441/", "url": "https://phys.org/news/2026-03-flexible-protein-regions-retain-function.html", "date_published": "2026-03-13T21:12:40.214Z", "date_modified": "2026-03-13T21:12:40.214Z", "_original_published": "2026-03-13T21:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "How flexible protein regions retain their function via motifs and chemical context" }, "zh-Hans": { "title": "柔性蛋白区域如何通过基序和化学环境保持其功能" }, "ja": { "title": "タンパク質における可動性領域が、モチーフや化学的環境を通じてその機能を維持する仕組み" }, "zh-Hant": { "title": "柔性蛋白區域如何通過基序和化學環境保持其功能" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-flexible-protein-r.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-14  How flexible protein regions retain their function via motifs and chemical context (phys.org)" }, { "title": "科学家表示,亮粉色的昆虫之所以引人注目,正是为了融入环境", "summary": "Bright pink insect stands out to blend in, scientists say", "content_text": "Bright pink insect stands out to blend in, scientists say #plants #animals\n原文地址: https://phys.org/news/2026-03-bright-pink-insect-blend-scientists.html", "content_html": "
\"scx1.b-cdn.net
Bright pink insect stands out to blend in, scientists say (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692622061/", "url": "https://phys.org/news/2026-03-bright-pink-insect-blend-scientists.html", "date_published": "2026-03-13T20:42:45.698Z", "date_modified": "2026-03-13T20:42:45.698Z", "_original_published": "2026-03-13T20:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bright pink insect stands out to blend in, scientists say" }, "zh-Hans": { "title": "科学家表示,亮粉色的昆虫之所以引人注目,正是为了融入环境" }, "ja": { "title": "科学者によると、鮮やかなピンク色の昆虫は、目立つことで周囲に溶け込んでいるという" }, "zh-Hant": { "title": "科學家表示,亮粉色的昆蟲之所以引人注目,正是為了融入環境" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/bright-pink-insect-sta-1.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-14  Bright pink insect stands out to blend in, scientists say (phys.org)" }, { "title": "解读化石颅骨骨折模式:生物力学分析带来新见解", "summary": "Reading fossil skull fracture patterns: Biomechanical analysis provides new insights", "content_text": "Reading fossil skull fracture patterns: Biomechanical analysis provides new insights #archaeology\n原文地址: https://phys.org/news/2026-03-fossil-skull-fracture-patterns-biomechanical.html", "content_html": "
\"scx1.b-cdn.net
Reading fossil skull fracture patterns: Biomechanical analysis provides new insights (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692617190/", "url": "https://phys.org/news/2026-03-fossil-skull-fracture-patterns-biomechanical.html", "date_published": "2026-03-13T20:42:45.694Z", "date_modified": "2026-03-13T20:42:45.694Z", "_original_published": "2026-03-13T20:30:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Reading fossil skull fracture patterns: Biomechanical analysis provides new insights" }, "zh-Hans": { "title": "解读化石颅骨骨折模式:生物力学分析带来新见解" }, "ja": { "title": "化石の頭蓋骨骨折パターンの解読:生体力学的解析が新たな知見をもたらす" }, "zh-Hant": { "title": "解讀化石顱骨骨折模式:生物力學分析帶來新見解" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-biomechanical-study.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-14  Reading fossil skull fracture patterns: Biomechanical analysis provides new insights (phys.org)" }, { "title": "实时蛋白质质量控制有助于维持细胞健康", "summary": "Real-time protein quality control keeps cells healthy", "content_text": "Real-time protein quality control keeps cells healthy #cell #microbiology\n原文地址: https://phys.org/news/2026-03-real-protein-quality-cells-healthy.html", "content_html": "
\"scx1.b-cdn.net
Real-time protein quality control keeps cells healthy (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692620827/", "url": "https://phys.org/news/2026-03-real-protein-quality-cells-healthy.html", "date_published": "2026-03-13T20:25:36.072Z", "date_modified": "2026-03-13T20:25:36.072Z", "_original_published": "2026-03-13T20:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Real-time protein quality control keeps cells healthy" }, "zh-Hans": { "title": "实时蛋白质质量控制有助于维持细胞健康" }, "ja": { "title": "リアルタイムのタンパク質品質管理が細胞の健康を維持する" }, "zh-Hant": { "title": "實時蛋白質質量控制有助於維持細胞健康" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/real-time-protein-qual.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-14  Real-time protein quality control keeps cells healthy (phys.org)" }, { "title": "植物会数数吗?研究表明,它们能够记录自身经历的事件数量", "summary": "Can plants count? Study suggests they can track the number of events they experience", "content_text": "Can plants count? Study suggests they can track the number of events they experience #plants #animals\n原文地址: https://phys.org/news/2026-03-track-events.html", "content_html": "
\"scx1.b-cdn.net
Can plants count? Study suggests they can track the number of events they experience (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692621821/", "url": "https://phys.org/news/2026-03-track-events.html", "date_published": "2026-03-13T20:09:29.611Z", "date_modified": "2026-03-13T20:09:29.611Z", "_original_published": "2026-03-13T20:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Can plants count? Study suggests they can track the number of events they experience" }, "zh-Hans": { "title": "植物会数数吗?研究表明,它们能够记录自身经历的事件数量" }, "ja": { "title": "植物は数を数えられるのか?研究によると、植物は自分が経験した出来事の数を把握できるという" }, "zh-Hant": { "title": "植物會數數嗎?研究表明,它們能夠記錄自身經歷的事件數量" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/can-plants-count-new-r.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-14  Can plants count? Study suggests they can track the number of events they experience (phys.org)" }, { "title": "地理空间模型绘制了“结节性皮肤病”可能进入澳大利亚的途径", "summary": "Geospatial model maps potential lumpy skin disease entry points into Australia", "content_text": "Geospatial model maps potential lumpy skin disease entry points into Australia #veterinary #medicine\n原文地址: https://phys.org/news/2026-03-geospatial-potential-lumpy-skin-disease.html", "content_html": "
\"scx1.b-cdn.net
Geospatial model maps potential lumpy skin disease entry points into Australia (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692617145/", "url": "https://phys.org/news/2026-03-geospatial-potential-lumpy-skin-disease.html", "date_published": "2026-03-13T19:53:33.171Z", "date_modified": "2026-03-13T19:53:33.171Z", "_original_published": "2026-03-13T19:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Geospatial model maps potential lumpy skin disease entry points into Australia" }, "zh-Hans": { "title": "地理空间模型绘制了“结节性皮肤病”可能进入澳大利亚的途径" }, "ja": { "title": "地理空間モデルが、オーストラリアへの塊状皮膚病の侵入経路となり得る地点を地図化している" }, "zh-Hant": { "title": "地理空間模型繪製了“結節性皮膚病”可能進入澳大利亞的途徑" } }, "tags": [ "Veterinary", "medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/model-maps-potential-l.jpg", "_tag_links": [ { "name": "Veterinary", "url": "https://i.buzzing.cc/phys/tags/veterinary/" }, { "name": "medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-14  Geospatial model maps potential lumpy skin disease entry points into Australia (phys.org)" }, { "title": "一种细菌菌株突破了化疗药物生产中长达数十年的瓶颈", "summary": "Bacterial strain breaks decades-old bottleneck in chemotherapy drug manufacturing", "content_text": "Bacterial strain breaks decades-old bottleneck in chemotherapy drug manufacturing #biotechnology\n原文地址: https://phys.org/news/2026-03-bacterial-strain-decades-bottleneck-chemotherapy.html", "content_html": "
\"scx1.b-cdn.net
Bacterial strain breaks decades-old bottleneck in chemotherapy drug manufacturing (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692620801/", "url": "https://phys.org/news/2026-03-bacterial-strain-decades-bottleneck-chemotherapy.html", "date_published": "2026-03-13T19:53:33.168Z", "date_modified": "2026-03-13T19:53:33.168Z", "_original_published": "2026-03-13T19:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bacterial strain breaks decades-old bottleneck in chemotherapy drug manufacturing" }, "zh-Hans": { "title": "一种细菌菌株突破了化疗药物生产中长达数十年的瓶颈" }, "ja": { "title": "ある細菌株が、化学療法薬の製造における数十年にわたるボトルネックを解消した" }, "zh-Hant": { "title": "一種細菌菌株突破了化療藥物生產中長達數十年的瓶頸" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-break-deca.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-14  Bacterial strain breaks decades-old bottleneck in chemotherapy drug manufacturing (phys.org)" }, { "title": "全面的数字素材生态系统能够进行“合理性检查”,从而指导设计", "summary": "Comprehensive digital materials ecosystem can perform ''sanity check'' to guide design", "content_text": "Comprehensive digital materials ecosystem can perform ''sanity check'' to guide design #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-comprehensive-digital-materials-ecosystem-sanity.html", "content_html": "
\"scx1.b-cdn.net
Comprehensive digital materials ecosystem can perform ''sanity check'' to guide design (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692620681/", "url": "https://phys.org/news/2026-03-comprehensive-digital-materials-ecosystem-sanity.html", "date_published": "2026-03-13T19:21:23.798Z", "date_modified": "2026-03-13T19:21:23.798Z", "_original_published": "2026-03-13T19:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Comprehensive digital materials ecosystem can perform ''sanity check'' to guide design" }, "zh-Hans": { "title": "全面的数字素材生态系统能够进行“合理性检查”,从而指导设计" }, "ja": { "title": "包括的なデジタル素材エコシステムは、「妥当性チェック」を行い、デザインを導くことができます" }, "zh-Hant": { "title": "全面的數字素材生態系統能夠進行“合理性檢查”,從而指導設計" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/comprehensive-digital.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-14  Comprehensive digital materials ecosystem can perform ''sanity check'' to guide design (phys.org)" }, { "title": "基于超声波将强效药物输送至癌细胞的方法在实验室实验中展现出良好前景", "summary": "Ultrasound-based approach to delivering potent drugs into cancer cells shows promise in benchtop experiments", "content_text": "Ultrasound-based approach to delivering potent drugs into cancer cells shows promise in benchtop experiments #bio #medicine\n原文地址: https://phys.org/news/2026-03-ultrasound-based-approach-potent-drugs.html", "content_html": "
\"scx1.b-cdn.net
Ultrasound-based approach to delivering potent drugs into cancer cells shows promise in benchtop experiments (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692551141/", "url": "https://phys.org/news/2026-03-ultrasound-based-approach-potent-drugs.html", "date_published": "2026-03-13T19:05:50.406Z", "date_modified": "2026-03-13T19:05:50.406Z", "_original_published": "2026-03-13T19:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ultrasound-based approach to delivering potent drugs into cancer cells shows promise in benchtop experiments" }, "zh-Hans": { "title": "基于超声波将强效药物输送至癌细胞的方法在实验室实验中展现出良好前景" }, "ja": { "title": "がん細胞への強力な薬剤送達に向けた超音波を用いた手法が、実験室での実験において有望な結果を示している" }, "zh-Hant": { "title": "基於超聲波將強效藥物輸送至癌細胞的方法在實驗室實驗中展現出良好前景" } }, "tags": [ "Bio", "&", "Medicine" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/bursting-cancer-seekin.jpg", "_tag_links": [ { "name": "Bio", "url": "https://i.buzzing.cc/phys/tags/bio/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Medicine", "url": "https://i.buzzing.cc/phys/tags/medicine/" } ], "_lite_content_html": "03-14  Ultrasound-based approach to delivering potent drugs into cancer cells shows promise in benchtop experiments (phys.org)" }, { "title": "城市公园土壤微生物揭示功能与进化的权衡", "summary": "Urban park soil microbes reveal function–evolution trade-off", "content_text": "Urban park soil microbes reveal function–evolution trade-off #ecology\n原文地址: https://phys.org/news/2026-03-urban-soil-microbes-reveal-functionevolution.html", "content_html": "
\"scx1.b-cdn.net
Urban park soil microbes reveal function–evolution trade-off (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692619902/", "url": "https://phys.org/news/2026-03-urban-soil-microbes-reveal-functionevolution.html", "date_published": "2026-03-13T18:49:34.021Z", "date_modified": "2026-03-13T18:49:34.021Z", "_original_published": "2026-03-13T18:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Urban park soil microbes reveal function–evolution trade-off" }, "zh-Hans": { "title": "城市公园土壤微生物揭示功能与进化的权衡" }, "ja": { "title": "都市公園の土壌微生物が示す機能と進化のトレードオフ" }, "zh-Hant": { "title": "城市公園土壤微生物揭示功能與進化的權衡" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-finds-functionev-2.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-14  Urban park soil microbes reveal function–evolution trade-off (phys.org)" }, { "title": "豹纹壁虎研究阐明了温度如何影响性别发育", "summary": "Leopard gecko study clarifies how temperature shapes sex development", "content_text": "Leopard gecko study clarifies how temperature shapes sex development #plants #animals\n原文地址: https://phys.org/news/2026-03-leopard-gecko-temperature-sex.html", "content_html": "
\"scx1.b-cdn.net
Leopard gecko study clarifies how temperature shapes sex development (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692619661/", "url": "https://phys.org/news/2026-03-leopard-gecko-temperature-sex.html", "date_published": "2026-03-13T18:33:31.860Z", "date_modified": "2026-03-13T18:33:31.860Z", "_original_published": "2026-03-13T18:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Leopard gecko study clarifies how temperature shapes sex development" }, "zh-Hans": { "title": "豹纹壁虎研究阐明了温度如何影响性别发育" }, "ja": { "title": "レオパードゲッコーの研究により、温度が性決定にどのような影響を与えるかが明らかになった" }, "zh-Hant": { "title": "豹紋壁虎研究闡明瞭溫度如何影響性別發育" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-study-clarifies-ho.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-14  Leopard gecko study clarifies how temperature shapes sex development (phys.org)" }, { "title": "科学家证实了长期以来被认为存在于氧化过程中的某种分子的存在", "summary": "Scientists confirm existence of molecule long believed to occur in oxidation", "content_text": "Scientists confirm existence of molecule long believed to occur in oxidation #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-scientists-molecule-believed-oxidation.html", "content_html": "
\"scx1.b-cdn.net
Scientists confirm existence of molecule long believed to occur in oxidation (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692549101/", "url": "https://phys.org/news/2026-03-scientists-molecule-believed-oxidation.html", "date_published": "2026-03-13T18:01:30.342Z", "date_modified": "2026-03-13T18:01:30.342Z", "_original_published": "2026-03-13T18:00:13.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists confirm existence of molecule long believed to occur in oxidation" }, "zh-Hans": { "title": "科学家证实了长期以来被认为存在于氧化过程中的某种分子的存在" }, "ja": { "title": "科学者らは、長い間酸化反応で生成されると考えられてきた分子の存在を確認した" }, "zh-Hant": { "title": "科學家證實了長期以來被認為存在於氧化過程中的某種分子的存在" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scientists-confirm-exi.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-14  Scientists confirm existence of molecule long believed to occur in oxidation (phys.org)" }, { "title": "这不仅仅是一颗围绕红矮星运行的普通岩石行星——它与众不同", "summary": "This isn''t just another rocky world orbiting a red dwarf—this one''s special", "content_text": "This isn''t just another rocky world orbiting a red dwarf—this one''s special #astronomy\n原文地址: https://phys.org/news/2026-03-isnt-rocky-world-orbiting-red.html", "content_html": "
\"scx1.b-cdn.net
This isn''t just another rocky world orbiting a red dwarf—this one''s special (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692613851/", "url": "https://phys.org/news/2026-03-isnt-rocky-world-orbiting-red.html", "date_published": "2026-03-13T18:01:30.339Z", "date_modified": "2026-03-13T18:01:30.339Z", "_original_published": "2026-03-13T18:00:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "This isn''t just another rocky world orbiting a red dwarf—this one''s special" }, "zh-Hans": { "title": "这不仅仅是一颗围绕红矮星运行的普通岩石行星——它与众不同" }, "ja": { "title": "これは単なる赤色矮星を公転する岩石惑星の一つではない――この惑星は特別なのだ" }, "zh-Hant": { "title": "這不僅僅是一顆圍繞紅矮星運行的普通岩石行星——它與眾不同" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/this-isnt-just-another.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-14  This isn''t just another rocky world orbiting a red dwarf—this one''s special (phys.org)" }, { "title": "一种看似不可能的全雌性克隆鱼类是如何通过自我复制逃脱灭绝的", "summary": "How an unlikely all-female clonal fish species copied and pasted itself free from extinction", "content_text": "How an unlikely all-female clonal fish species copied and pasted itself free from extinction #evolution\n原文地址: https://phys.org/news/2026-03-female-clonal-fish-species-free.html", "content_html": "
\"scx1.b-cdn.net
How an unlikely all-female clonal fish species copied and pasted itself free from extinction (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692617087/", "url": "https://phys.org/news/2026-03-female-clonal-fish-species-free.html", "date_published": "2026-03-13T17:45:40.337Z", "date_modified": "2026-03-13T17:45:40.337Z", "_original_published": "2026-03-13T17:40:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "How an unlikely all-female clonal fish species copied and pasted itself free from extinction" }, "zh-Hans": { "title": "一种看似不可能的全雌性克隆鱼类是如何通过自我复制逃脱灭绝的" }, "ja": { "title": "ありそうもない全個体がクローンである魚種が、どのようにして自分自身を複製・増殖させ、絶滅を免れたのか" }, "zh-Hant": { "title": "一種看似不可能的全雌性克隆魚類是如何通過自我複製逃脫滅絕的" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/scienists-uncover-the-1.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-14  How an unlikely all-female clonal fish species copied and pasted itself free from extinction (phys.org)" }, { "title": "光之奥秘:无形电场如何驱动器件发光", "summary": "Inside the light: How invisible electric fields drive device luminescence", "content_text": "Inside the light: How invisible electric fields drive device luminescence #optics #photonics\n原文地址: https://phys.org/news/2026-03-invisible-electric-fields-device-luminescence.html", "content_html": "
\"scx1.b-cdn.net
Inside the light: How invisible electric fields drive device luminescence (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692616962/", "url": "https://phys.org/news/2026-03-invisible-electric-fields-device-luminescence.html", "date_published": "2026-03-13T17:29:34.434Z", "date_modified": "2026-03-13T17:29:34.434Z", "_original_published": "2026-03-13T17:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Inside the light: How invisible electric fields drive device luminescence" }, "zh-Hans": { "title": "光之奥秘:无形电场如何驱动器件发光" }, "ja": { "title": "光の内部:目に見えない電場がデバイスの発光をどのように駆動するか" }, "zh-Hant": { "title": "光之奧秘:無形電場如何驅動器件發光" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/inside-the-light-how-i.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03-14  Inside the light: How invisible electric fields drive device luminescence (phys.org)" }, { "title": "一种藻类如何通过重新排列普通叶绿素来充分利用微弱光线", "summary": "How an alga makes the most of dim light by rearranging ordinary chlorophyll", "content_text": "How an alga makes the most of dim light by rearranging ordinary chlorophyll #biochemistry\n原文地址: https://phys.org/news/2026-03-alga-dim-rearranging-ordinary-chlorophyll.html", "content_html": "
\"scx1.b-cdn.net
How an alga makes the most of dim light by rearranging ordinary chlorophyll (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692616781/", "url": "https://phys.org/news/2026-03-alga-dim-rearranging-ordinary-chlorophyll.html", "date_published": "2026-03-13T17:13:41.941Z", "date_modified": "2026-03-13T17:13:41.941Z", "_original_published": "2026-03-13T17:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "How an alga makes the most of dim light by rearranging ordinary chlorophyll" }, "zh-Hans": { "title": "一种藻类如何通过重新排列普通叶绿素来充分利用微弱光线" }, "ja": { "title": "ある藻類が、通常のクロロフィルを再構成することで、弱い光を最大限に活用する仕組み" }, "zh-Hant": { "title": "一種藻類如何通過重新排列普通葉綠素來充分利用微弱光線" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-an-alga-makes-the.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "03-14  How an alga makes the most of dim light by rearranging ordinary chlorophyll (phys.org)" }, { "title": "研究表明,在远古温暖气候下,随着二氧化碳浓度上升,厄尔尼诺现象达到峰值后逐渐减弱", "summary": "As CO₂ rose in a warm ancient climate, study shows El Niño peaked then weakened", "content_text": "As CO₂ rose in a warm ancient climate, study shows El Niño peaked then weakened #earth #sciences\n原文地址: https://phys.org/news/2026-03-rose-ancient-climate-el-nio.html", "content_html": "
\"scx1.b-cdn.net
As CO₂ rose in a warm ancient climate, study shows El Niño peaked then weakened (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692624821/", "url": "https://phys.org/news/2026-03-rose-ancient-climate-el-nio.html", "date_published": "2026-03-13T16:57:50.977Z", "date_modified": "2026-03-13T16:57:50.977Z", "_original_published": "2026-03-13T16:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "As CO₂ rose in a warm ancient climate, study shows El Niño peaked then weakened" }, "zh-Hans": { "title": "研究表明,在远古温暖气候下,随着二氧化碳浓度上升,厄尔尼诺现象达到峰值后逐渐减弱" }, "ja": { "title": "研究によると、温暖な古代の気候下で二酸化炭素濃度が上昇するにつれ、エルニーニョ現象はピークに達した後、弱まったという" }, "zh-Hant": { "title": "研究表明,在遠古溫暖氣候下,隨著二氧化碳濃度上升,厄爾尼諾現象達到峰值後逐漸減弱" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nonlinear-and-asymmetr.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-14  As CO₂ rose in a warm ancient climate, study shows El Niño peaked then weakened (phys.org)" }, { "title": "研究表明,北大西洋变暖加剧了瓦伦西亚DANA风暴的强度", "summary": "Study reveals North Atlantic warming contributed to intensity of Valencia DANA storm", "content_text": "Study reveals North Atlantic warming contributed to intensity of Valencia DANA storm #earth #sciences\n原文地址: https://phys.org/news/2026-03-reveals-north-atlantic-contributed-intensity.html", "content_html": "
\"scx1.b-cdn.net
Study reveals North Atlantic warming contributed to intensity of Valencia DANA storm (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692624101/", "url": "https://phys.org/news/2026-03-reveals-north-atlantic-contributed-intensity.html", "date_published": "2026-03-13T16:42:02.009Z", "date_modified": "2026-03-13T16:42:02.009Z", "_original_published": "2026-03-13T16:40:08.000Z", "_original_language": "en", "_translations": { "en": { "title": "Study reveals North Atlantic warming contributed to intensity of Valencia DANA storm" }, "zh-Hans": { "title": "研究表明,北大西洋变暖加剧了瓦伦西亚DANA风暴的强度" }, "ja": { "title": "研究によると、北大西洋の温暖化がバレンシアを襲った「DANA」嵐の勢力を強めたことが明らかになった" }, "zh-Hant": { "title": "研究表明,北大西洋變暖加劇了瓦倫西亞DANA風暴的強度" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-reveals-that-the.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-14  Study reveals North Atlantic warming contributed to intensity of Valencia DANA storm (phys.org)" }, { "title": "虽不那么漂亮却收获满满点赞:大黄蜂的“从众效应”让繁忙的花朵比美丽的花朵更受青睐", "summary": "Not so pretty but plenty of likes: A bumblebee bandwagon effect prioritizes busy flowers over beautiful ones", "content_text": "Not so pretty but plenty of likes: A bumblebee bandwagon effect prioritizes busy flowers over beautiful ones #plants #animals\n原文地址: https://phys.org/news/2026-03-pretty-plenty-bumblebee-bandwagon-effect.html", "content_html": "
\"scx1.b-cdn.net
Not so pretty but plenty of likes: A bumblebee bandwagon effect prioritizes busy flowers over beautiful ones (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692616601/", "url": "https://phys.org/news/2026-03-pretty-plenty-bumblebee-bandwagon-effect.html", "date_published": "2026-03-13T16:42:02.005Z", "date_modified": "2026-03-13T16:42:02.005Z", "_original_published": "2026-03-13T16:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Not so pretty but plenty of likes: A bumblebee bandwagon effect prioritizes busy flowers over beautiful ones" }, "zh-Hans": { "title": "虽不那么漂亮却收获满满点赞:大黄蜂的“从众效应”让繁忙的花朵比美丽的花朵更受青睐" }, "ja": { "title": "見た目はあまり良くないけれど「いいね」はたくさん:マルハナバチのバンドワゴン効果により、美しい花よりも賑わっている花が優先される" }, "zh-Hant": { "title": "雖不那麼漂亮卻收穫滿滿點贊:大黃蜂的“從眾效應”讓繁忙的花朵比美麗的花朵更受青睞" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/not-so-pretty-but-plen.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-14  Not so pretty but plenty of likes: A bumblebee bandwagon effect prioritizes busy flowers over beautiful ones (phys.org)" }, { "title": "在解决量子化学问题之前,量子计算机必须克服重大的技术障碍", "summary": "Quantum computers must overcome major technical hurdles before tackling quantum chemistry problems", "content_text": "Quantum computers must overcome major technical hurdles before tackling quantum chemistry problems #quantum #physics\n原文地址: https://phys.org/news/2026-03-quantum-major-technical-hurdles-tackling.html", "content_html": "
\"scx1.b-cdn.net
Quantum computers must overcome major technical hurdles before tackling quantum chemistry problems (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692620770/", "url": "https://phys.org/news/2026-03-quantum-major-technical-hurdles-tackling.html", "date_published": "2026-03-13T16:42:02.001Z", "date_modified": "2026-03-13T16:42:02.001Z", "_original_published": "2026-03-13T16:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Quantum computers must overcome major technical hurdles before tackling quantum chemistry problems" }, "zh-Hans": { "title": "在解决量子化学问题之前,量子计算机必须克服重大的技术障碍" }, "ja": { "title": "量子コンピュータは、量子化学の問題に取り組む前に、大きな技術的課題を克服しなければならない" }, "zh-Hant": { "title": "在解決量子化學問題之前,量子計算機必須克服重大的技術障礙" } }, "tags": [ "Quantum", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/major-technical-hurdle.jpg", "_tag_links": [ { "name": "Quantum", "url": "https://i.buzzing.cc/phys/tags/quantum/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "03-14  Quantum computers must overcome major technical hurdles before tackling quantum chemistry problems (phys.org)" }, { "title": "支持云端的模拟框架可捕捉分子结合途径", "summary": "Cloud-ready simulation framework enables capture of molecular binding pathways", "content_text": "Cloud-ready simulation framework enables capture of molecular binding pathways #biochemistry\n原文地址: https://phys.org/news/2026-03-cloud-ready-simulation-framework-enables.html", "content_html": "
\"scx1.b-cdn.net
Cloud-ready simulation framework enables capture of molecular binding pathways (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692612677/", "url": "https://phys.org/news/2026-03-cloud-ready-simulation-framework-enables.html", "date_published": "2026-03-13T16:25:41.836Z", "date_modified": "2026-03-13T16:25:41.836Z", "_original_published": "2026-03-13T16:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cloud-ready simulation framework enables capture of molecular binding pathways" }, "zh-Hans": { "title": "支持云端的模拟框架可捕捉分子结合途径" }, "ja": { "title": "クラウド対応のシミュレーションフレームワークにより、分子結合経路の解明が可能になる" }, "zh-Hant": { "title": "支持雲端的模擬框架可捕捉分子結合途徑" } }, "tags": [ "Biochemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/watching-the-dance-of.jpg", "_tag_links": [ { "name": "Biochemistry", "url": "https://i.buzzing.cc/phys/tags/biochemistry/" } ], "_lite_content_html": "03-14  Cloud-ready simulation framework enables capture of molecular binding pathways (phys.org)" }, { "title": "远古时期的阿拉巴马州鱼群咬钩:白垩纪顶级掠食者颈部发现嵌入的鱼齿", "summary": "The fish were biting in ancient Alabama: Tooth found embedded in Cretaceous apex predator''s neck", "content_text": "The fish were biting in ancient Alabama: Tooth found embedded in Cretaceous apex predator''s neck #paleontology #fossils\n原文地址: https://phys.org/news/2026-03-fish-ancient-alabama-tooth-embedded.html", "content_html": "
\"scx1.b-cdn.net
The fish were biting in ancient Alabama: Tooth found embedded in Cretaceous apex predator''s neck (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692616361/", "url": "https://phys.org/news/2026-03-fish-ancient-alabama-tooth-embedded.html", "date_published": "2026-03-13T16:09:41.223Z", "date_modified": "2026-03-13T16:09:41.223Z", "_original_published": "2026-03-13T16:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The fish were biting in ancient Alabama: Tooth found embedded in Cretaceous apex predator''s neck" }, "zh-Hans": { "title": "远古时期的阿拉巴马州鱼群咬钩:白垩纪顶级掠食者颈部发现嵌入的鱼齿" }, "ja": { "title": "古代のアラバマでは魚が食いついていた:白亜紀の頂点捕食者の首に歯が埋まった状態で発見" }, "zh-Hant": { "title": "遠古時期的阿拉巴馬州魚群咬鉤:白堊紀頂級掠食者頸部發現嵌入的魚齒" } }, "tags": [ "Paleontology", "&", "Fossils" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-fish-were-biting-i.jpg", "_tag_links": [ { "name": "Paleontology", "url": "https://i.buzzing.cc/phys/tags/paleontology/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Fossils", "url": "https://i.buzzing.cc/phys/tags/fossils/" } ], "_lite_content_html": "03-14  The fish were biting in ancient Alabama: Tooth found embedded in Cretaceous apex predator''s neck (phys.org)" }, { "title": "量子点可按需生成纠缠光子对", "summary": "Quantum dots generate entangled photon pairs on demand", "content_text": "Quantum dots generate entangled photon pairs on demand #optics #photonics\n原文地址: https://phys.org/news/2026-03-quantum-dots-generate-entangled-photon.html", "content_html": "
\"scx1.b-cdn.net
Quantum dots generate entangled photon pairs on demand (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692612663/", "url": "https://phys.org/news/2026-03-quantum-dots-generate-entangled-photon.html", "date_published": "2026-03-13T15:53:39.871Z", "date_modified": "2026-03-13T15:53:39.871Z", "_original_published": "2026-03-13T15:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Quantum dots generate entangled photon pairs on demand" }, "zh-Hans": { "title": "量子点可按需生成纠缠光子对" }, "ja": { "title": "量子ドットがオンデマンドで量子もつれ状態の光子対を生成する" }, "zh-Hant": { "title": "量子點可按需生成糾纏光子對" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/quantum-dots-generate.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03-13  Quantum dots generate entangled photon pairs on demand (phys.org)" }, { "title": "更安全的太空旅行:科学家研制出宇宙射线模拟器", "summary": "Safer space travel: Scientists create a cosmic ray simulator", "content_text": "Safer space travel: Scientists create a cosmic ray simulator #space #exploration\n原文地址: https://phys.org/news/2026-03-safer-space-scientists-cosmic-ray.html", "content_html": "
\"scx1.b-cdn.net
Safer space travel: Scientists create a cosmic ray simulator (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692615161/", "url": "https://phys.org/news/2026-03-safer-space-scientists-cosmic-ray.html", "date_published": "2026-03-13T15:21:41.330Z", "date_modified": "2026-03-13T15:21:41.330Z", "_original_published": "2026-03-13T15:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Safer space travel: Scientists create a cosmic ray simulator" }, "zh-Hans": { "title": "更安全的太空旅行:科学家研制出宇宙射线模拟器" }, "ja": { "title": "より安全な宇宙旅行:科学者らが宇宙線シミュレーターを開発" }, "zh-Hant": { "title": "更安全的太空旅行:科學家研製出宇宙射線模擬器" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/safer-space-travelcosm-1.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-13  Safer space travel: Scientists create a cosmic ray simulator (phys.org)" }, { "title": "是年龄、疾病,还是两者兼而有之?古病理学研究的新视角", "summary": "Age, disease, or both? A new perspective on paleopathological research", "content_text": "Age, disease, or both? A new perspective on paleopathological research #archaeology\n原文地址: https://phys.org/news/2026-03-age-disease-perspective-paleopathological.html", "content_html": "
\"scx1.b-cdn.net
Age, disease, or both? A new perspective on paleopathological research (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692619361/", "url": "https://phys.org/news/2026-03-age-disease-perspective-paleopathological.html", "date_published": "2026-03-13T15:21:41.327Z", "date_modified": "2026-03-13T15:21:41.327Z", "_original_published": "2026-03-13T15:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Age, disease, or both? A new perspective on paleopathological research" }, "zh-Hans": { "title": "是年龄、疾病,还是两者兼而有之?古病理学研究的新视角" }, "ja": { "title": "加齢か、病気か、それともその両方か? 古病理学研究への新たな視点" }, "zh-Hant": { "title": "是年齡、疾病,還是兩者兼而有之?古病理學研究的新視角" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/age-disease-or-both-a.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-13  Age, disease, or both? A new perspective on paleopathological research (phys.org)" }, { "title": "物理学家首次观测到镱-150中的一种罕见核异构体", "summary": "Physicists observe rare nuclear isomer in ytterbium-150 for first time", "content_text": "Physicists observe rare nuclear isomer in ytterbium-150 for first time #general #physics\n原文地址: https://phys.org/news/2026-03-physicists-rare-nuclear-isomer-ytterbium.html", "content_html": "
\"scx1.b-cdn.net
Physicists observe rare nuclear isomer in ytterbium-150 for first time (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692612637/", "url": "https://phys.org/news/2026-03-physicists-rare-nuclear-isomer-ytterbium.html", "date_published": "2026-03-13T15:05:40.179Z", "date_modified": "2026-03-13T15:05:40.179Z", "_original_published": "2026-03-13T15:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Physicists observe rare nuclear isomer in ytterbium-150 for first time" }, "zh-Hans": { "title": "物理学家首次观测到镱-150中的一种罕见核异构体" }, "ja": { "title": "物理学者がイッテルビウム150の希少な核異性体を初めて観測" }, "zh-Hant": { "title": "物理學家首次觀測到鐿-150中的一種罕見核異構體" } }, "tags": [ "General", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/physicists-observe-rar.jpg", "_tag_links": [ { "name": "General", "url": "https://i.buzzing.cc/phys/tags/general/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "03-13  Physicists observe rare nuclear isomer in ytterbium-150 for first time (phys.org)" }, { "title": "在300C下,空间解耦的催化位点使一氧化碳转化为甲醇的收率提高了三倍", "summary": "Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300C", "content_text": "Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300C #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-spatially-decoupled-catalyst-sites-boost.html", "content_html": "
\"scx1.b-cdn.net
Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300C (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692549281/", "url": "https://phys.org/news/2026-03-spatially-decoupled-catalyst-sites-boost.html", "date_published": "2026-03-13T15:05:40.175Z", "date_modified": "2026-03-13T15:05:40.175Z", "_original_published": "2026-03-13T15:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300C" }, "zh-Hans": { "title": "在300C下,空间解耦的催化位点使一氧化碳转化为甲醇的收率提高了三倍" }, "ja": { "title": "空間的に分離された触媒サイトにより、300CでのCOからメタノールへの収率が3倍に増加" }, "zh-Hant": { "title": "在300C下,空間解耦的催化位點使一氧化碳轉化為甲醇的收率提高了三倍" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/spatially-decoupling-a.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-13  Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300C (phys.org)" }, { "title": "巨大的恐龙骨骼或将揭示霸王龙的起源", "summary": "Huge dinosaur bone may reveal the origins of T. rex", "content_text": "Huge dinosaur bone may reveal the origins of T. rex #evolution\n原文地址: https://phys.org/news/2026-03-huge-dinosaur-bone-reveal-rex.html", "content_html": "
\"scx1.b-cdn.net
Huge dinosaur bone may reveal the origins of T. rex (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692613882/", "url": "https://phys.org/news/2026-03-huge-dinosaur-bone-reveal-rex.html", "date_published": "2026-03-13T14:49:45.603Z", "date_modified": "2026-03-13T14:49:45.603Z", "_original_published": "2026-03-13T14:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Huge dinosaur bone may reveal the origins of T. rex" }, "zh-Hans": { "title": "巨大的恐龙骨骼或将揭示霸王龙的起源" }, "ja": { "title": "巨大な恐竜の骨が、ティラノサウルスの起源を解明する手がかりとなるかもしれない" }, "zh-Hant": { "title": "巨大的恐龍骨骼或將揭示霸王龍的起源" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/huge-dinosaur-bone-may.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-13  Huge dinosaur bone may reveal the origins of T. rex (phys.org)" }, { "title": "渔业资源岌岌可危:气候变化影响全球渔获量", "summary": "Fish stocks are on the line: Climate change impacts global fishing yields", "content_text": "Fish stocks are on the line: Climate change impacts global fishing yields #ecology\n原文地址: https://phys.org/news/2026-03-fish-stocks-line-climate-impacts.html", "content_html": "
\"scx1.b-cdn.net
Fish stocks are on the line: Climate change impacts global fishing yields (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692611801/", "url": "https://phys.org/news/2026-03-fish-stocks-line-climate-impacts.html", "date_published": "2026-03-13T14:33:39.914Z", "date_modified": "2026-03-13T14:33:39.914Z", "_original_published": "2026-03-13T14:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Fish stocks are on the line: Climate change impacts global fishing yields" }, "zh-Hans": { "title": "渔业资源岌岌可危:气候变化影响全球渔获量" }, "ja": { "title": "魚資源が危機に瀕している:気候変動が世界の漁獲量に影響を及ぼしている" }, "zh-Hant": { "title": "漁業資源岌岌可危:氣候變化影響全球漁獲量" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/commercial-fishing.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Fish stocks are on the line: Climate change impacts global fishing yields (phys.org)" }, { "title": "提出简单措施,防止工业界将塑料颗粒倾倒入海", "summary": "Proposing simple measures to prevent industry dumping plastic pellets into the sea", "content_text": "Proposing simple measures to prevent industry dumping plastic pellets into the sea #environment\n原文地址: https://phys.org/news/2026-03-simple-industry-dumping-plastic-pellets.html", "content_html": "
\"scx1.b-cdn.net
Proposing simple measures to prevent industry dumping plastic pellets into the sea (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692614921/", "url": "https://phys.org/news/2026-03-simple-industry-dumping-plastic-pellets.html", "date_published": "2026-03-13T14:17:40.736Z", "date_modified": "2026-03-13T14:17:40.736Z", "_original_published": "2026-03-13T14:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Proposing simple measures to prevent industry dumping plastic pellets into the sea" }, "zh-Hans": { "title": "提出简单措施,防止工业界将塑料颗粒倾倒入海" }, "ja": { "title": "企業がプラスチックペレットを海に投棄することを防ぐための簡単な対策を提案する" }, "zh-Hant": { "title": "提出簡單措施,防止工業界將塑料顆粒傾倒入海" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/proposing-simple-measu.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  Proposing simple measures to prevent industry dumping plastic pellets into the sea (phys.org)" }, { "title": "遗传学家对细胞如何保持其身份的普遍模型提出质疑", "summary": "Geneticists challenge common model of how cells retain their identity", "content_text": "Geneticists challenge common model of how cells retain their identity #cell #microbiology\n原文地址: https://phys.org/news/2026-03-geneticists-common-cells-retain-identity.html", "content_html": "
\"scx1.b-cdn.net
Geneticists challenge common model of how cells retain their identity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692611501/", "url": "https://phys.org/news/2026-03-geneticists-common-cells-retain-identity.html", "date_published": "2026-03-13T14:01:34.379Z", "date_modified": "2026-03-13T14:01:34.379Z", "_original_published": "2026-03-13T14:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Geneticists challenge common model of how cells retain their identity" }, "zh-Hans": { "title": "遗传学家对细胞如何保持其身份的普遍模型提出质疑" }, "ja": { "title": "遺伝学者が、細胞が自らのアイデンティティを維持する仕組みに関する従来のモデルに異議を唱えている" }, "zh-Hant": { "title": "遺傳學家對細胞如何保持其身份的普遍模型提出質疑" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/geneticists-challenge.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Geneticists challenge common model of how cells retain their identity (phys.org)" }, { "title": "再生放牧研究揭示了羊农面临的权衡取舍", "summary": "Regenerative grazing study reveals trade-offs for sheep farmers", "content_text": "Regenerative grazing study reveals trade-offs for sheep farmers #ecology\n原文地址: https://phys.org/news/2026-03-regenerative-grazing-reveals-offs-sheep.html", "content_html": "
\"scx1.b-cdn.net
Regenerative grazing study reveals trade-offs for sheep farmers (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692611081/", "url": "https://phys.org/news/2026-03-regenerative-grazing-reveals-offs-sheep.html", "date_published": "2026-03-13T13:45:45.212Z", "date_modified": "2026-03-13T13:45:45.212Z", "_original_published": "2026-03-13T13:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Regenerative grazing study reveals trade-offs for sheep farmers" }, "zh-Hans": { "title": "再生放牧研究揭示了羊农面临的权衡取舍" }, "ja": { "title": "再生型放牧に関する研究が、羊飼いに生じるトレードオフを明らかにした" }, "zh-Hant": { "title": "再生放牧研究揭示了羊農面臨的權衡取捨" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/sheep-grazing.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Regenerative grazing study reveals trade-offs for sheep farmers (phys.org)" }, { "title": "学校的“无车接送区”真的有效吗?", "summary": "Do schools'' car-free drop-offs really work?", "content_text": "Do schools'' car-free drop-offs really work? #environment\n原文地址: https://phys.org/news/2026-03-schools-car-free-offs.html", "content_html": "
\"scx1.b-cdn.net
Do schools'' car-free drop-offs really work? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692612161/", "url": "https://phys.org/news/2026-03-schools-car-free-offs.html", "date_published": "2026-03-13T13:45:45.209Z", "date_modified": "2026-03-13T13:45:45.209Z", "_original_published": "2026-03-13T13:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Do schools'' car-free drop-offs really work?" }, "zh-Hans": { "title": "学校的“无车接送区”真的有效吗?" }, "ja": { "title": "学校の「車での送迎禁止」は本当に効果があるのだろうか?" }, "zh-Hant": { "title": "學校的“無車接送區”真的有效嗎?" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/city-school.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  Do schools'' car-free drop-offs really work? (phys.org)" }, { "title": "经典几何学中一个存在数十年的难题得到解决:首次发现紧致帽对", "summary": "Decades-old problem in classical geometry solved: First compact pair of bonnets found", "content_text": "Decades-old problem in classical geometry solved: First compact pair of bonnets found #mathematics\n原文地址: https://phys.org/news/2026-03-decades-problem-classical-geometry-compact.html", "content_html": "
\"scx1.b-cdn.net
Decades-old problem in classical geometry solved: First compact pair of bonnets found (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692610061/", "url": "https://phys.org/news/2026-03-decades-problem-classical-geometry-compact.html", "date_published": "2026-03-13T13:29:33.308Z", "date_modified": "2026-03-13T13:29:33.308Z", "_original_published": "2026-03-13T13:20:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Decades-old problem in classical geometry solved: First compact pair of bonnets found" }, "zh-Hans": { "title": "经典几何学中一个存在数十年的难题得到解决:首次发现紧致帽对" }, "ja": { "title": "古典幾何学における数十年にわたる難問が解決:初のコンパクトなボンネットの対が発見される" }, "zh-Hant": { "title": "經典幾何學中一個存在數十年的難題得到解決:首次發現緊緻帽對" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/decades-old-problem-in.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "03-13  Decades-old problem in classical geometry solved: First compact pair of bonnets found (phys.org)" }, { "title": "最近看到熊了吗?你不是唯一一个——为何目击事件日益增多", "summary": "Spotted a bear lately? You''re not alone—why sightings are on the rise", "content_text": "Spotted a bear lately? You''re not alone—why sightings are on the rise #ecology\n原文地址: https://phys.org/news/2026-03-youre-sightings.html", "content_html": "
\"scx1.b-cdn.net
Spotted a bear lately? You''re not alone—why sightings are on the rise (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692612042/", "url": "https://phys.org/news/2026-03-youre-sightings.html", "date_published": "2026-03-13T13:29:33.304Z", "date_modified": "2026-03-13T13:29:33.304Z", "_original_published": "2026-03-13T13:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Spotted a bear lately? You''re not alone—why sightings are on the rise" }, "zh-Hans": { "title": "最近看到熊了吗?你不是唯一一个——为何目击事件日益增多" }, "ja": { "title": "最近、クマを見かけましたか? あなただけではありません――目撃情報が増えている理由" }, "zh-Hant": { "title": "最近看到熊了嗎?你不是唯一一個——為何目擊事件日益增多" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/black-bear-brown-bear.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Spotted a bear lately? You''re not alone—why sightings are on the rise (phys.org)" }, { "title": "当大家庭成员协助照料幼鸟时,雌鸟更倾向于鸣唱", "summary": "Female birds more likely to sing when their extended family helps with childcare", "content_text": "Female birds more likely to sing when their extended family helps with childcare #evolution\n原文地址: https://phys.org/news/2026-03-female-birds-family-childcare.html", "content_html": "
\"scx1.b-cdn.net
Female birds more likely to sing when their extended family helps with childcare (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692609581/", "url": "https://phys.org/news/2026-03-female-birds-family-childcare.html", "date_published": "2026-03-13T13:13:41.163Z", "date_modified": "2026-03-13T13:13:41.163Z", "_original_published": "2026-03-13T13:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Female birds more likely to sing when their extended family helps with childcare" }, "zh-Hans": { "title": "当大家庭成员协助照料幼鸟时,雌鸟更倾向于鸣唱" }, "ja": { "title": "拡大家族が子育てを手伝ってくれる場合、メスの鳥はさえずる傾向が強くなる" }, "zh-Hant": { "title": "當大家庭成員協助照料幼鳥時,雌鳥更傾向於鳴唱" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/female-birds-more-like-1.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-13  Female birds more likely to sing when their extended family helps with childcare (phys.org)" }, { "title": "量子握手:轨道重叠如何决定分子导电性", "summary": "Quantum handshake: How orbital overlap dictates molecular conductance", "content_text": "Quantum handshake: How orbital overlap dictates molecular conductance #nanophysics\n原文地址: https://phys.org/news/2026-03-quantum-handshake-orbital-overlap-dictates.html", "content_html": "
\"scx1.b-cdn.net
Quantum handshake: How orbital overlap dictates molecular conductance (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692609221/", "url": "https://phys.org/news/2026-03-quantum-handshake-orbital-overlap-dictates.html", "date_published": "2026-03-13T12:41:30.981Z", "date_modified": "2026-03-13T12:41:30.981Z", "_original_published": "2026-03-13T12:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Quantum handshake: How orbital overlap dictates molecular conductance" }, "zh-Hans": { "title": "量子握手:轨道重叠如何决定分子导电性" }, "ja": { "title": "量子ハンドシェイク:軌道重なりが分子の伝導度を決定する仕組み" }, "zh-Hant": { "title": "量子握手:軌道重疊如何決定分子導電性" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/quantum-handshake-how.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "03-13  Quantum handshake: How orbital overlap dictates molecular conductance (phys.org)" }, { "title": "微生物线索揭示野生鸣禽如何应对压力", "summary": "Microbial clues uncover how wild songbirds respond to stress", "content_text": "Microbial clues uncover how wild songbirds respond to stress #ecology\n原文地址: https://phys.org/news/2026-03-microbial-clues-uncover-wild-songbirds.html", "content_html": "
\"scx1.b-cdn.net
Microbial clues uncover how wild songbirds respond to stress (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692525342/", "url": "https://phys.org/news/2026-03-microbial-clues-uncover-wild-songbirds.html", "date_published": "2026-03-13T10:01:27.841Z", "date_modified": "2026-03-13T10:01:27.841Z", "_original_published": "2026-03-13T10:00:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Microbial clues uncover how wild songbirds respond to stress" }, "zh-Hans": { "title": "微生物线索揭示野生鸣禽如何应对压力" }, "ja": { "title": "微生物の手がかりが解明する、野生の鳴禽類のストレス応答メカニズム" }, "zh-Hant": { "title": "微生物線索揭示野生鳴禽如何應對壓力" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/microbial-clues-uncove.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Microbial clues uncover how wild songbirds respond to stress (phys.org)" }, { "title": "从塑料到药品,一项新发现引发连锁反应", "summary": "From plastics to pharmaceuticals, a new discovery sparks chain reactions", "content_text": "From plastics to pharmaceuticals, a new discovery sparks chain reactions #polymers\n原文地址: https://phys.org/news/2026-03-plastics-pharmaceuticals-discovery-chain-reactions.html", "content_html": "
\"scx1.b-cdn.net
From plastics to pharmaceuticals, a new discovery sparks chain reactions (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692538061/", "url": "https://phys.org/news/2026-03-plastics-pharmaceuticals-discovery-chain-reactions.html", "date_published": "2026-03-13T10:01:27.837Z", "date_modified": "2026-03-13T10:01:27.837Z", "_original_published": "2026-03-13T10:00:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "From plastics to pharmaceuticals, a new discovery sparks chain reactions" }, "zh-Hans": { "title": "从塑料到药品,一项新发现引发连锁反应" }, "ja": { "title": "プラスチックから医薬品まで、新たな発見が連鎖反応を引き起こす" }, "zh-Hant": { "title": "從塑料到藥品,一項新發現引發連鎖反應" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/major-discovery-sparks-2.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "03-13  From plastics to pharmaceuticals, a new discovery sparks chain reactions (phys.org)" }, { "title": "一条无需依赖GDP增长即可实现高福祉与安全气候的途径", "summary": "A pathway to achieve high well-being and a safe climate without relying on GDP growth", "content_text": "A pathway to achieve high well-being and a safe climate without relying on GDP growth #environment\n原文地址: https://phys.org/news/2026-03-pathway-high-safe-climate-gdp.html", "content_html": "
\"scx1.b-cdn.net
A pathway to achieve high well-being and a safe climate without relying on GDP growth (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692550841/", "url": "https://phys.org/news/2026-03-pathway-high-safe-climate-gdp.html", "date_published": "2026-03-13T10:01:27.834Z", "date_modified": "2026-03-13T10:01:27.834Z", "_original_published": "2026-03-13T10:00:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "A pathway to achieve high well-being and a safe climate without relying on GDP growth" }, "zh-Hans": { "title": "一条无需依赖GDP增长即可实现高福祉与安全气候的途径" }, "ja": { "title": "GDP成長に依存せずに高い幸福度と安全な気候を実現する道筋" }, "zh-Hant": { "title": "一條無需依賴GDP增長即可實現高福祉與安全氣候的途徑" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/green-world.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  A pathway to achieve high well-being and a safe climate without relying on GDP growth (phys.org)" }, { "title": "美国天气将陷入疯狂:暴风雪、极地涡旋、热穹顶、大气河流齐发", "summary": "US weather to go nuts with blizzard, polar vortex, heat dome, atmospheric river all at once", "content_text": "US weather to go nuts with blizzard, polar vortex, heat dome, atmospheric river all at once #environment\n原文地址: https://phys.org/news/2026-03-weather-nuts-blizzard-polar-vortex.html", "content_html": "
\"scx1.b-cdn.net
US weather to go nuts with blizzard, polar vortex, heat dome, atmospheric river all at once (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692597340/", "url": "https://phys.org/news/2026-03-weather-nuts-blizzard-polar-vortex.html", "date_published": "2026-03-13T09:13:46.255Z", "date_modified": "2026-03-13T09:13:46.255Z", "_original_published": "2026-03-13T09:10:13.000Z", "_original_language": "en", "_translations": { "en": { "title": "US weather to go nuts with blizzard, polar vortex, heat dome, atmospheric river all at once" }, "zh-Hans": { "title": "美国天气将陷入疯狂:暴风雪、极地涡旋、热穹顶、大气河流齐发" }, "ja": { "title": "米国で異常気象が相次ぐ 吹雪、極渦、熱波、大気河流が同時に襲来" }, "zh-Hant": { "title": "美國天氣將陷入瘋狂:暴風雪、極地渦旋、熱穹頂、大氣河流齊發" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/us-weather-to-go-nuts.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  US weather to go nuts with blizzard, polar vortex, heat dome, atmospheric river all at once (phys.org)" }, { "title": "一场与时间赛跑的行动,旨在抢救记录中世纪采矿、火灾和火山活动的阿尔卑斯冰芯", "summary": "A race against time to save Alpine ice cores that record medieval mining, fires, and volcanoes", "content_text": "A race against time to save Alpine ice cores that record medieval mining, fires, and volcanoes #earth #sciences\n原文地址: https://phys.org/news/2026-03-alpine-ice-cores-medieval-volcanoes.html", "content_html": "
\"scx1.b-cdn.net
A race against time to save Alpine ice cores that record medieval mining, fires, and volcanoes (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692538181/", "url": "https://phys.org/news/2026-03-alpine-ice-cores-medieval-volcanoes.html", "date_published": "2026-03-13T05:13:43.799Z", "date_modified": "2026-03-13T05:13:43.799Z", "_original_published": "2026-03-13T05:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "A race against time to save Alpine ice cores that record medieval mining, fires, and volcanoes" }, "zh-Hans": { "title": "一场与时间赛跑的行动,旨在抢救记录中世纪采矿、火灾和火山活动的阿尔卑斯冰芯" }, "ja": { "title": "中世の鉱業・火災・火山活動を記録するアルプスの氷床コアを救うための時間との戦い" }, "zh-Hant": { "title": "一場與時間賽跑的行動,旨在搶救記錄中世紀採礦、火災和火山活動的阿爾卑斯冰芯" } }, "tags": [ "Earth", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/race-against-time-to-s.jpg", "_tag_links": [ { "name": "Earth", "url": "https://i.buzzing.cc/phys/tags/earth/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-13  A race against time to save Alpine ice cores that record medieval mining, fires, and volcanoes (phys.org)" }, { "title": "利用环境DNA助力澳大利亚海洋保护", "summary": "Harnessing eDNA to help conserve Australia''s oceans", "content_text": "Harnessing eDNA to help conserve Australia''s oceans #ecology\n原文地址: https://phys.org/news/2026-03-harnessing-edna-australia-oceans.html", "content_html": "
\"scx1.b-cdn.net
Harnessing eDNA to help conserve Australia''s oceans (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692531904/", "url": "https://phys.org/news/2026-03-harnessing-edna-australia-oceans.html", "date_published": "2026-03-13T02:35:37.562Z", "date_modified": "2026-03-13T02:35:37.562Z", "_original_published": "2026-03-13T02:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Harnessing eDNA to help conserve Australia''s oceans" }, "zh-Hans": { "title": "利用环境DNA助力澳大利亚海洋保护" }, "ja": { "title": "eDNAを活用してオーストラリアの海洋保護を支援する" }, "zh-Hant": { "title": "利用環境DNA助力澳大利亞海洋保護" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/can-edna-help-conserve.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Harnessing eDNA to help conserve Australia''s oceans (phys.org)" }, { "title": "研究表明,社交媒体网红加剧了虚假信息的危害性和影响力", "summary": "Social media influencers increase the toxicity and power of misinformation, research shows", "content_text": "Social media influencers increase the toxicity and power of misinformation, research shows #social #sciences\n原文地址: https://phys.org/news/2026-03-social-media-toxicity-power-misinformation.html", "content_html": "
\"scx1.b-cdn.net
Social media influencers increase the toxicity and power of misinformation, research shows (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692528304/", "url": "https://phys.org/news/2026-03-social-media-toxicity-power-misinformation.html", "date_published": "2026-03-13T01:31:47.810Z", "date_modified": "2026-03-13T01:31:47.810Z", "_original_published": "2026-03-13T01:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Social media influencers increase the toxicity and power of misinformation, research shows" }, "zh-Hans": { "title": "研究表明,社交媒体网红加剧了虚假信息的危害性和影响力" }, "ja": { "title": "研究によると、ソーシャルメディアのインフルエンサーは誤情報の有害性と影響力を増大させている" }, "zh-Hant": { "title": "研究表明,社交媒體網紅加劇了虛假信息的危害性和影響力" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/app-user.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-13  Social media influencers increase the toxicity and power of misinformation, research shows (phys.org)" }, { "title": "最新研究发现,耐涝湿地作物也能促进自然生态恢复", "summary": "Flood tolerant wetland crops could also support nature recovery, finds new research", "content_text": "Flood tolerant wetland crops could also support nature recovery, finds new research #plants #animals\n原文地址: https://phys.org/news/2026-03-tolerant-wetland-crops-nature-recovery.html", "content_html": "
\"scx1.b-cdn.net
Flood tolerant wetland crops could also support nature recovery, finds new research (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_13__news692522449/", "url": "https://phys.org/news/2026-03-tolerant-wetland-crops-nature-recovery.html", "date_published": "2026-03-13T00:27:35.640Z", "date_modified": "2026-03-13T00:27:35.640Z", "_original_published": "2026-03-13T00:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Flood tolerant wetland crops could also support nature recovery, finds new research" }, "zh-Hans": { "title": "最新研究发现,耐涝湿地作物也能促进自然生态恢复" }, "ja": { "title": "新たな研究によると、洪水に強い湿地作物は自然回復の支援にもなり得る" }, "zh-Hant": { "title": "最新研究發現,耐澇溼地作物也能促進自然生態恢復" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/flood-tolerant-wetland.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Flood tolerant wetland crops could also support nature recovery, finds new research (phys.org)" }, { "title": "全球观测揭示海洋营养物质快速重组", "summary": "Global observations reveal rapid reorganization of ocean nutrients", "content_text": "Global observations reveal rapid reorganization of ocean nutrients #environment\n原文地址: https://phys.org/news/2026-03-global-reveal-rapid-ocean-nutrients.html", "content_html": "
\"scx1.b-cdn.net
Global observations reveal rapid reorganization of ocean nutrients (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692544601/", "url": "https://phys.org/news/2026-03-global-reveal-rapid-ocean-nutrients.html", "date_published": "2026-03-12T23:55:27.535Z", "date_modified": "2026-03-12T23:55:27.535Z", "_original_published": "2026-03-12T23:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Global observations reveal rapid reorganization of ocean nutrients" }, "zh-Hans": { "title": "全球观测揭示海洋营养物质快速重组" }, "ja": { "title": "地球規模の観測により、海洋栄養塩の急速な再編成が明らかになった" }, "zh-Hant": { "title": "全球觀測揭示海洋營養物質快速重組" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/global-observations-re.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  Global observations reveal rapid reorganization of ocean nutrients (phys.org)" }, { "title": "昆士兰北部发现三种新种岩蜥蜴", "summary": "Three new rock monitor lizard species discovered in northern Queensland", "content_text": "Three new rock monitor lizard species discovered in northern Queensland #plants #animals\n原文地址: https://phys.org/news/2026-03-lizard-species-northern-queensland.html", "content_html": "
\"scx1.b-cdn.net
Three new rock monitor lizard species discovered in northern Queensland (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692528218/", "url": "https://phys.org/news/2026-03-lizard-species-northern-queensland.html", "date_published": "2026-03-12T23:55:27.531Z", "date_modified": "2026-03-12T23:55:27.531Z", "_original_published": "2026-03-12T23:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Three new rock monitor lizard species discovered in northern Queensland" }, "zh-Hans": { "title": "昆士兰北部发现三种新种岩蜥蜴" }, "ja": { "title": "クイーンズランド州北部で3種の新たなロックモニターリザードが発見される" }, "zh-Hant": { "title": "昆士蘭北部發現三種新種巖蜥蜴" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/three-new-rock-monitor.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Three new rock monitor lizard species discovered in northern Queensland (phys.org)" }, { "title": "从物理学视角看全球贸易", "summary": "Seeing global trade through the lens of physics", "content_text": "Seeing global trade through the lens of physics #mathematics\n原文地址: https://phys.org/news/2026-03-global-lens-physics.html", "content_html": "
\"scx1.b-cdn.net
Seeing global trade through the lens of physics (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692543746/", "url": "https://phys.org/news/2026-03-global-lens-physics.html", "date_published": "2026-03-12T23:23:32.110Z", "date_modified": "2026-03-12T23:23:32.110Z", "_original_published": "2026-03-12T23:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Seeing global trade through the lens of physics" }, "zh-Hans": { "title": "从物理学视角看全球贸易" }, "ja": { "title": "物理学のレンズを通して見る国際貿易" }, "zh-Hant": { "title": "從物理學視角看全球貿易" } }, "tags": [ "Mathematics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/global-trade-1.jpg", "_tag_links": [ { "name": "Mathematics", "url": "https://i.buzzing.cc/phys/tags/mathematics/" } ], "_lite_content_html": "03-13  Seeing global trade through the lens of physics (phys.org)" }, { "title": "专业资源中心有助于提升自闭症学生的归属感与学业成就", "summary": "Specialist resource centers linked to stronger sense of belonging, attainment for autistic pupils", "content_text": "Specialist resource centers linked to stronger sense of belonging, attainment for autistic pupils #education\n原文地址: https://phys.org/news/2026-03-specialist-resource-centers-linked-stronger.html", "content_html": "
\"scx1.b-cdn.net
Specialist resource centers linked to stronger sense of belonging, attainment for autistic pupils (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692517282/", "url": "https://phys.org/news/2026-03-specialist-resource-centers-linked-stronger.html", "date_published": "2026-03-12T23:07:46.715Z", "date_modified": "2026-03-12T23:07:46.715Z", "_original_published": "2026-03-12T23:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Specialist resource centers linked to stronger sense of belonging, attainment for autistic pupils" }, "zh-Hans": { "title": "专业资源中心有助于提升自闭症学生的归属感与学业成就" }, "ja": { "title": "自閉症の生徒にとって、専門リソースセンターは帰属意識の強化と学業達成と関連している" }, "zh-Hant": { "title": "專業資源中心有助於提升自閉症學生的歸屬感與學業成就" } }, "tags": [ "Education" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2021/1-school.jpg", "_tag_links": [ { "name": "Education", "url": "https://i.buzzing.cc/phys/tags/education/" } ], "_lite_content_html": "03-13  Specialist resource centers linked to stronger sense of belonging, attainment for autistic pupils (phys.org)" }, { "title": "细胞死亡的\"美丽\"环状结构揭示生物韧性与免疫机制", "summary": "Cell death''s ''beautiful'' rings have implications for biological resilience and immunity", "content_text": "Cell death''s ''beautiful'' rings have implications for biological resilience and immunity #cell #microbiology\n原文地址: https://phys.org/news/2026-03-cell-death-beautiful-implications-biological.html", "content_html": "
\"scx1.b-cdn.net
Cell death''s ''beautiful'' rings have implications for biological resilience and immunity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692543739/", "url": "https://phys.org/news/2026-03-cell-death-beautiful-implications-biological.html", "date_published": "2026-03-12T23:07:46.712Z", "date_modified": "2026-03-12T23:07:46.712Z", "_original_published": "2026-03-12T23:00:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cell death''s ''beautiful'' rings have implications for biological resilience and immunity" }, "zh-Hans": { "title": "细胞死亡的\"美丽\"环状结构揭示生物韧性与免疫机制" }, "ja": { "title": "細胞死の「美しい」リングは、生物学的回復力と免疫に示唆を与える" }, "zh-Hant": { "title": "細胞死亡的\"美麗\"環狀結構揭示生物韌性與免疫機制" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cell-deaths-beautiful.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Cell death''s ''beautiful'' rings have implications for biological resilience and immunity (phys.org)" }, { "title": "非靶向分析法究竟能看到多少?模型绘制化学盲区图谱", "summary": "How much do nontargeted analyses really see? A model maps chemical blind spots", "content_text": "How much do nontargeted analyses really see? A model maps chemical blind spots #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-nontargeted-analyses-chemical.html", "content_html": "
\"scx1.b-cdn.net
How much do nontargeted analyses really see? A model maps chemical blind spots (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692540522/", "url": "https://phys.org/news/2026-03-nontargeted-analyses-chemical.html", "date_published": "2026-03-12T22:51:32.644Z", "date_modified": "2026-03-12T22:51:32.644Z", "_original_published": "2026-03-12T22:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "How much do nontargeted analyses really see? A model maps chemical blind spots" }, "zh-Hans": { "title": "非靶向分析法究竟能看到多少?模型绘制化学盲区图谱" }, "ja": { "title": "非標的解析は実際にどれほど見えているのか? 化学物質の盲点をマッピングするモデル" }, "zh-Hant": { "title": "非靶向分析法究竟能看到多少?模型繪製化學盲區圖譜" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-limitations-of-non.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-13  How much do nontargeted analyses really see? A model maps chemical blind spots (phys.org)" }, { "title": "破译密码:一台\"预测机器\"如何让新加坡石重见天日", "summary": "Cracking the code: How a ''prediction machine'' is resurrecting the Singapore Stone", "content_text": "Cracking the code: How a ''prediction machine'' is resurrecting the Singapore Stone #archaeology\n原文地址: https://phys.org/news/2026-03-code-machine-resurrecting-singapore-stone.html", "content_html": "
\"scx1.b-cdn.net
Cracking the code: How a ''prediction machine'' is resurrecting the Singapore Stone (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692529522/", "url": "https://phys.org/news/2026-03-code-machine-resurrecting-singapore-stone.html", "date_published": "2026-03-12T22:35:29.044Z", "date_modified": "2026-03-12T22:35:29.044Z", "_original_published": "2026-03-12T22:20:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cracking the code: How a ''prediction machine'' is resurrecting the Singapore Stone" }, "zh-Hans": { "title": "破译密码:一台\"预测机器\"如何让新加坡石重见天日" }, "ja": { "title": "暗号解読:『予言機械』がシンガポール石碑を蘇らせる方法" }, "zh-Hant": { "title": "破譯密碼:一臺\"預測機器\"如何讓新加坡石重見天日" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/cracking-the-code-how.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-13  Cracking the code: How a ''prediction machine'' is resurrecting the Singapore Stone (phys.org)" }, { "title": "仿生事件相机利用几何学追踪完整振动轨迹", "summary": "Bioinspired event camera tracks full vibration trajectory using geometry", "content_text": "Bioinspired event camera tracks full vibration trajectory using geometry #general #physics\n原文地址: https://phys.org/news/2026-03-bioinspired-event-camera-tracks-full.html", "content_html": "
\"scx1.b-cdn.net
Bioinspired event camera tracks full vibration trajectory using geometry (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692540222/", "url": "https://phys.org/news/2026-03-bioinspired-event-camera-tracks-full.html", "date_published": "2026-03-12T22:35:29.040Z", "date_modified": "2026-03-12T22:35:29.040Z", "_original_published": "2026-03-12T22:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bioinspired event camera tracks full vibration trajectory using geometry" }, "zh-Hans": { "title": "仿生事件相机利用几何学追踪完整振动轨迹" }, "ja": { "title": "生体模倣型イベントカメラが幾何学を用いて振動の全軌跡を追跡する" }, "zh-Hant": { "title": "仿生事件相機利用幾何學追蹤完整振動軌跡" } }, "tags": [ "General", "Physics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/biologically-inspired-1.jpg", "_tag_links": [ { "name": "General", "url": "https://i.buzzing.cc/phys/tags/general/" }, { "name": "Physics", "url": "https://i.buzzing.cc/phys/tags/physics/" } ], "_lite_content_html": "03-13  Bioinspired event camera tracks full vibration trajectory using geometry (phys.org)" }, { "title": "维持中心粒凝聚的机制:NuSAP在中心体完整性中被新发现的作用", "summary": "What keeps centrioles together: NuSAP''s newly mapped role in centrosome integrity", "content_text": "What keeps centrioles together: NuSAP''s newly mapped role in centrosome integrity #cell #microbiology\n原文地址: https://phys.org/news/2026-03-centrioles-nusap-newly-role-centrosome.html", "content_html": "
\"scx1.b-cdn.net
What keeps centrioles together: NuSAP''s newly mapped role in centrosome integrity (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692539622/", "url": "https://phys.org/news/2026-03-centrioles-nusap-newly-role-centrosome.html", "date_published": "2026-03-12T22:03:34.111Z", "date_modified": "2026-03-12T22:03:34.111Z", "_original_published": "2026-03-12T22:00:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "What keeps centrioles together: NuSAP''s newly mapped role in centrosome integrity" }, "zh-Hans": { "title": "维持中心粒凝聚的机制:NuSAP在中心体完整性中被新发现的作用" }, "ja": { "title": "中心小体を結びつけるもの:中心体完全性におけるNuSAPの新たな役割" }, "zh-Hant": { "title": "維持中心粒凝聚的機制:NuSAP在中心體完整性中被新發現的作用" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nusap-the-centriole-bo.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  What keeps centrioles together: NuSAP''s newly mapped role in centrosome integrity (phys.org)" }, { "title": "研究人员开发出更精确的方法来研究驱动阿尔茨海默病的蛋白质", "summary": "Researcher creates more accurate method to study proteins that drive Alzheimer''s disease", "content_text": "Researcher creates more accurate method to study proteins that drive Alzheimer''s disease #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-accurate-method-proteins-alzheimer-disease.html", "content_html": "
\"scx1.b-cdn.net
Researcher creates more accurate method to study proteins that drive Alzheimer''s disease (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692522559/", "url": "https://phys.org/news/2026-03-accurate-method-proteins-alzheimer-disease.html", "date_published": "2026-03-12T22:03:34.107Z", "date_modified": "2026-03-12T22:03:34.107Z", "_original_published": "2026-03-12T21:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Researcher creates more accurate method to study proteins that drive Alzheimer''s disease" }, "zh-Hans": { "title": "研究人员开发出更精确的方法来研究驱动阿尔茨海默病的蛋白质" }, "ja": { "title": "研究者がアルツハイマー病を促進するタンパク質を研究するより正確な手法を開発" }, "zh-Hant": { "title": "研究人員開發出更精確的方法來研究驅動阿爾茨海默病的蛋白質" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researcher-creates-mor.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-13  Researcher creates more accurate method to study proteins that drive Alzheimer''s disease (phys.org)" }, { "title": "污水灌溉迎来好消息:三种作物能将药物副产物储存在叶片中", "summary": "Good news for wastewater irrigation: Three crops store pharmaceutical byproducts in their leaves", "content_text": "Good news for wastewater irrigation: Three crops store pharmaceutical byproducts in their leaves #molecular #computational #biology\n原文地址: https://phys.org/news/2026-03-good-news-wastewater-irrigation-crops.html", "content_html": "
\"scx1.b-cdn.net
Good news for wastewater irrigation: Three crops store pharmaceutical byproducts in their leaves (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692537462/", "url": "https://phys.org/news/2026-03-good-news-wastewater-irrigation-crops.html", "date_published": "2026-03-12T21:47:42.897Z", "date_modified": "2026-03-12T21:47:42.897Z", "_original_published": "2026-03-12T21:40:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Good news for wastewater irrigation: Three crops store pharmaceutical byproducts in their leaves" }, "zh-Hans": { "title": "污水灌溉迎来好消息:三种作物能将药物副产物储存在叶片中" }, "ja": { "title": "廃水灌漑に朗報:3種類の作物が葉に医薬副産物を蓄積" }, "zh-Hant": { "title": "汙水灌溉迎來好消息:三種作物能將藥物副產物儲存在葉片中" } }, "tags": [ "Molecular", "&", "Computational", "biology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/what-a-releaf-tomatoes.jpg", "_tag_links": [ { "name": "Molecular", "url": "https://i.buzzing.cc/phys/tags/molecular/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Computational", "url": "https://i.buzzing.cc/phys/tags/computational/" }, { "name": "biology", "url": "https://i.buzzing.cc/phys/tags/biology/" } ], "_lite_content_html": "03-13  Good news for wastewater irrigation: Three crops store pharmaceutical byproducts in their leaves (phys.org)" }, { "title": "局部液滴蚀刻技术可制备更对称的量子点,适用于集成光子学", "summary": "Local droplet etching yields more symmetric quantum dots for integrated photonics", "content_text": "Local droplet etching yields more symmetric quantum dots for integrated photonics #optics #photonics\n原文地址: https://phys.org/news/2026-03-local-droplet-etching-yields-symmetric.html", "content_html": "
\"scx1.b-cdn.net
Local droplet etching yields more symmetric quantum dots for integrated photonics (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692553782/", "url": "https://phys.org/news/2026-03-local-droplet-etching-yields-symmetric.html", "date_published": "2026-03-12T21:31:42.210Z", "date_modified": "2026-03-12T21:31:42.210Z", "_original_published": "2026-03-12T21:30:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Local droplet etching yields more symmetric quantum dots for integrated photonics" }, "zh-Hans": { "title": "局部液滴蚀刻技术可制备更对称的量子点,适用于集成光子学" }, "ja": { "title": "局所滴状エッチングにより集積フォトニクス向けより対称性の高い量子ドットが得られる" }, "zh-Hant": { "title": "局部液滴蝕刻技術可製備更對稱的量子點,適用於集成光子學" } }, "tags": [ "Optics", "&", "Photonics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-method-produces-qu-1.jpg", "_tag_links": [ { "name": "Optics", "url": "https://i.buzzing.cc/phys/tags/optics/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Photonics", "url": "https://i.buzzing.cc/phys/tags/photonics/" } ], "_lite_content_html": "03-13  Local droplet etching yields more symmetric quantum dots for integrated photonics (phys.org)" }, { "title": "神奇真菌被发现具有冻结水的能力", "summary": "Fantastic fungi found with ability to freeze water", "content_text": "Fantastic fungi found with ability to freeze water #biotechnology\n原文地址: https://phys.org/news/2026-03-fantastic-fungi-ability.html", "content_html": "
\"scx1.b-cdn.net
Fantastic fungi found with ability to freeze water (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692536602/", "url": "https://phys.org/news/2026-03-fantastic-fungi-ability.html", "date_published": "2026-03-12T21:31:42.206Z", "date_modified": "2026-03-12T21:31:42.206Z", "_original_published": "2026-03-12T21:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Fantastic fungi found with ability to freeze water" }, "zh-Hans": { "title": "神奇真菌被发现具有冻结水的能力" }, "ja": { "title": "水を凍らせる能力を持つ驚異の菌類を発見" }, "zh-Hant": { "title": "神奇真菌被發現具有凍結水的能力" } }, "tags": [ "Biotechnology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/fantastic-fungi-found.jpg", "_tag_links": [ { "name": "Biotechnology", "url": "https://i.buzzing.cc/phys/tags/biotechnology/" } ], "_lite_content_html": "03-13  Fantastic fungi found with ability to freeze water (phys.org)" }, { "title": "手机还是感情:研究探讨\"手机冷落\"对人际关系的影响", "summary": "Phone or affection: Study explores effect of phubbing on relationships", "content_text": "Phone or affection: Study explores effect of phubbing on relationships #social #sciences\n原文地址: https://phys.org/news/2026-03-affection-explores-effect-phubbing-relationships.html", "content_html": "
\"scx1.b-cdn.net
Phone or affection: Study explores effect of phubbing on relationships (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692529531/", "url": "https://phys.org/news/2026-03-affection-explores-effect-phubbing-relationships.html", "date_published": "2026-03-12T21:15:43.213Z", "date_modified": "2026-03-12T21:15:43.213Z", "_original_published": "2026-03-12T21:10:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Phone or affection: Study explores effect of phubbing on relationships" }, "zh-Hans": { "title": "手机还是感情:研究探讨\"手机冷落\"对人际关系的影响" }, "ja": { "title": "電話か愛情か:研究が「ファビング」が人間関係に与える影響を探る" }, "zh-Hant": { "title": "手機還是感情:研究探討\"手機冷落\"對人際關係的影響" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/people-on-phones.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-13  Phone or affection: Study explores effect of phubbing on relationships (phys.org)" }, { "title": "海豹和海狮为声音进化提供线索", "summary": "Seals and sea lions provide clues to evolution of vocalization", "content_text": "Seals and sea lions provide clues to evolution of vocalization #plants #animals\n原文地址: https://phys.org/news/2026-03-sea-lions-clues-evolution-vocalization.html", "content_html": "
\"scx1.b-cdn.net
Seals and sea lions provide clues to evolution of vocalization (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692553061/", "url": "https://phys.org/news/2026-03-sea-lions-clues-evolution-vocalization.html", "date_published": "2026-03-12T21:15:43.211Z", "date_modified": "2026-03-12T21:15:43.211Z", "_original_published": "2026-03-12T21:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Seals and sea lions provide clues to evolution of vocalization" }, "zh-Hans": { "title": "海豹和海狮为声音进化提供线索" }, "ja": { "title": "アザラシとアシカは発声の進化に関する手がかりを提供する" }, "zh-Hant": { "title": "海豹和海獅為聲音進化提供線索" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/seals-and-sea-lions-pr.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Seals and sea lions provide clues to evolution of vocalization (phys.org)" }, { "title": "人工智能借助爆炸性中子星数据加速核力机制解析", "summary": "AI accelerates elucidation of nuclear forces with explosive neutron star data", "content_text": "AI accelerates elucidation of nuclear forces with explosive neutron star data #astronomy\n原文地址: https://phys.org/news/2026-03-ai-elucidation-nuclear-explosive-neutron.html", "content_html": "
\"scx1.b-cdn.net
AI accelerates elucidation of nuclear forces with explosive neutron star data (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692536052/", "url": "https://phys.org/news/2026-03-ai-elucidation-nuclear-explosive-neutron.html", "date_published": "2026-03-12T21:15:43.207Z", "date_modified": "2026-03-12T21:15:43.207Z", "_original_published": "2026-03-12T21:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI accelerates elucidation of nuclear forces with explosive neutron star data" }, "zh-Hans": { "title": "人工智能借助爆炸性中子星数据加速核力机制解析" }, "ja": { "title": "人工知能が爆発性中性子星データで核力の解明を加速" }, "zh-Hant": { "title": "人工智能借助爆炸性中子星數據加速核力機制解析" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ai-accelerates-elucida.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-13  AI accelerates elucidation of nuclear forces with explosive neutron star data (phys.org)" }, { "title": "贝壳游戏:牡蛎如何借助微生物之力", "summary": "Shell game: How oysters enlist help from microbes", "content_text": "Shell game: How oysters enlist help from microbes #ecology\n原文地址: https://phys.org/news/2026-03-shell-game-oysters-microbes.html", "content_html": "
\"scx1.b-cdn.net
Shell game: How oysters enlist help from microbes (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692535841/", "url": "https://phys.org/news/2026-03-shell-game-oysters-microbes.html", "date_published": "2026-03-12T20:43:57.074Z", "date_modified": "2026-03-12T20:43:57.074Z", "_original_published": "2026-03-12T20:40:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "Shell game: How oysters enlist help from microbes" }, "zh-Hans": { "title": "贝壳游戏:牡蛎如何借助微生物之力" }, "ja": { "title": "貝の駆け引き:カキが微生物の力を借りる仕組み" }, "zh-Hant": { "title": "貝殼遊戲:牡蠣如何藉助微生物之力" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/shell-game-how-oysters.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Shell game: How oysters enlist help from microbes (phys.org)" }, { "title": "银河系中的宁静岛屿:''小红点''可能孕育了生命的基石", "summary": "Galactic islands of tranquility: ''Little red dots'' may have brewed life''s building blocks", "content_text": "Galactic islands of tranquility: ''Little red dots'' may have brewed life''s building blocks #astronomy\n原文地址: https://phys.org/news/2026-03-galactic-islands-tranquility-red-dots.html", "content_html": "
\"scx1.b-cdn.net
Galactic islands of tranquility: ''Little red dots'' may have brewed life''s building blocks (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692548452/", "url": "https://phys.org/news/2026-03-galactic-islands-tranquility-red-dots.html", "date_published": "2026-03-12T20:27:31.851Z", "date_modified": "2026-03-12T20:27:31.851Z", "_original_published": "2026-03-12T20:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Galactic islands of tranquility: ''Little red dots'' may have brewed life''s building blocks" }, "zh-Hans": { "title": "银河系中的宁静岛屿:''小红点''可能孕育了生命的基石" }, "ja": { "title": "銀河の静寂の島々:生命の構成要素を生み出したかもしれない「小さな赤い点」" }, "zh-Hant": { "title": "銀河系中的寧靜島嶼:''小紅點''可能孕育了生命的基石" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2020/milkyway.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-13  Galactic islands of tranquility: ''Little red dots'' may have brewed life''s building blocks (phys.org)" }, { "title": "一项关于过去12,000年全球珊瑚礁生长的新研究,揭示了海洋温度上升的影响", "summary": "New study of global reef growth over past 12,000 years offers insights into impact of rising ocean temperatures", "content_text": "New study of global reef growth over past 12,000 years offers insights into impact of rising ocean temperatures #plants #animals\n原文地址: https://phys.org/news/2026-03-global-reef-growth-years-insights.html", "content_html": "
\"scx1.b-cdn.net
New study of global reef growth over past 12,000 years offers insights into impact of rising ocean temperatures (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692535542/", "url": "https://phys.org/news/2026-03-global-reef-growth-years-insights.html", "date_published": "2026-03-12T20:27:31.847Z", "date_modified": "2026-03-12T20:27:31.847Z", "_original_published": "2026-03-12T20:20:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "New study of global reef growth over past 12,000 years offers insights into impact of rising ocean temperatures" }, "zh-Hans": { "title": "一项关于过去12,000年全球珊瑚礁生长的新研究,揭示了海洋温度上升的影响" }, "ja": { "title": "過去1万2000年にわたる世界のサンゴ礁の成長に関する新たな研究が、上昇する海水温の影響に関する知見を提供する" }, "zh-Hant": { "title": "一項關於過去12,000年全球珊瑚礁生長的新研究,揭示了海洋溫度上升的影響" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2023/coral-reef-2.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  New study of global reef growth over past 12,000 years offers insights into impact of rising ocean temperatures (phys.org)" }, { "title": "让青霉素重新成为对抗细菌的致命武器", "summary": "Turning penicillin into a lethal force against bacteria again", "content_text": "Turning penicillin into a lethal force against bacteria again #cell #microbiology\n原文地址: https://phys.org/news/2026-03-penicillin-lethal-bacteria.html", "content_html": "
\"scx1.b-cdn.net
Turning penicillin into a lethal force against bacteria again (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547661/", "url": "https://phys.org/news/2026-03-penicillin-lethal-bacteria.html", "date_published": "2026-03-12T20:11:44.328Z", "date_modified": "2026-03-12T20:11:44.328Z", "_original_published": "2026-03-12T20:10:08.000Z", "_original_language": "en", "_translations": { "en": { "title": "Turning penicillin into a lethal force against bacteria again" }, "zh-Hans": { "title": "让青霉素重新成为对抗细菌的致命武器" }, "ja": { "title": "ペニシリンを再び細菌に対する致死的な力に変える" }, "zh-Hant": { "title": "讓青黴素重新成為對抗細菌的致命武器" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/turning-penicillin-int-1.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Turning penicillin into a lethal force against bacteria again (phys.org)" }, { "title": "半导体电极如何实现绿色制氢", "summary": "How semiconductor electrodes can achieve green hydrogen production", "content_text": "How semiconductor electrodes can achieve green hydrogen production #analytical #chemistry\n原文地址: https://phys.org/news/2026-03-semiconductor-electrodes-green-hydrogen-production.html", "content_html": "
\"scx1.b-cdn.net
How semiconductor electrodes can achieve green hydrogen production (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547753/", "url": "https://phys.org/news/2026-03-semiconductor-electrodes-green-hydrogen-production.html", "date_published": "2026-03-12T20:11:44.325Z", "date_modified": "2026-03-12T20:11:44.325Z", "_original_published": "2026-03-12T20:10:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "How semiconductor electrodes can achieve green hydrogen production" }, "zh-Hans": { "title": "半导体电极如何实现绿色制氢" }, "ja": { "title": "半導体電極によるグリーン水素製造の実現方法" }, "zh-Hant": { "title": "半導體電極如何實現綠色制氫" } }, "tags": [ "Analytical", "Chemistry" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/new-research-reveals-h-9.jpg", "_tag_links": [ { "name": "Analytical", "url": "https://i.buzzing.cc/phys/tags/analytical/" }, { "name": "Chemistry", "url": "https://i.buzzing.cc/phys/tags/chemistry/" } ], "_lite_content_html": "03-13  How semiconductor electrodes can achieve green hydrogen production (phys.org)" }, { "title": "蜉蝣的奇异性生活:微型CT扫描揭示群交《爱经》的来龙去脉", "summary": "The bizarre sex life of mayflies: Micro-CT scans reveal ins and outs of swarm Kamasutra", "content_text": "The bizarre sex life of mayflies: Micro-CT scans reveal ins and outs of swarm Kamasutra #plants #animals\n原文地址: https://phys.org/news/2026-03-bizarre-sex-life-mayflies-micro.html", "content_html": "
\"scx1.b-cdn.net
The bizarre sex life of mayflies: Micro-CT scans reveal ins and outs of swarm Kamasutra (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692535362/", "url": "https://phys.org/news/2026-03-bizarre-sex-life-mayflies-micro.html", "date_published": "2026-03-12T20:11:44.321Z", "date_modified": "2026-03-12T20:11:44.321Z", "_original_published": "2026-03-12T20:00:03.000Z", "_original_language": "en", "_translations": { "en": { "title": "The bizarre sex life of mayflies: Micro-CT scans reveal ins and outs of swarm Kamasutra" }, "zh-Hans": { "title": "蜉蝣的奇异性生活:微型CT扫描揭示群交《爱经》的来龙去脉" }, "ja": { "title": "カゲロウの奇妙な性生活:マイクロCTスキャンが暴く群れによるカーマスートラの全貌" }, "zh-Hant": { "title": "蜉蝣的奇異性生活:微型CT掃描揭示群交《愛經》的來龍去脈" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-bizarre-sex-life-o.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  The bizarre sex life of mayflies: Micro-CT scans reveal ins and outs of swarm Kamasutra (phys.org)" }, { "title": "允许原子自由进出,可为更优材料建模开辟新途径", "summary": "Allowing atoms to come and go can open the door to better materials modeling", "content_text": "Allowing atoms to come and go can open the door to better materials modeling #nanophysics\n原文地址: https://phys.org/news/2026-03-atoms-door-materials.html", "content_html": "
\"scx1.b-cdn.net
Allowing atoms to come and go can open the door to better materials modeling (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547601/", "url": "https://phys.org/news/2026-03-atoms-door-materials.html", "date_published": "2026-03-12T19:55:49.935Z", "date_modified": "2026-03-12T19:55:49.935Z", "_original_published": "2026-03-12T19:50:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Allowing atoms to come and go can open the door to better materials modeling" }, "zh-Hans": { "title": "允许原子自由进出,可为更优材料建模开辟新途径" }, "ja": { "title": "原子の出入りを許容することで、より優れた材料モデリングへの道が開ける" }, "zh-Hant": { "title": "允許原子自由進出,可為更優材料建模開闢新途徑" } }, "tags": [ "Nanophysics" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/allowing-atoms-to-come.jpg", "_tag_links": [ { "name": "Nanophysics", "url": "https://i.buzzing.cc/phys/tags/nanophysics/" } ], "_lite_content_html": "03-13  Allowing atoms to come and go can open the door to better materials modeling (phys.org)" }, { "title": "韦伯望远镜在邻近螺旋星系NGC 5134中发现细节", "summary": "Webb spots details in nearby spiral galaxy NGC 5134", "content_text": "Webb spots details in nearby spiral galaxy NGC 5134 #astronomy\n原文地址: https://phys.org/news/2026-03-webb-nearby-spiral-galaxy-ngc.html", "content_html": "
\"scx1.b-cdn.net
Webb spots details in nearby spiral galaxy NGC 5134 (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547737/", "url": "https://phys.org/news/2026-03-webb-nearby-spiral-galaxy-ngc.html", "date_published": "2026-03-12T19:55:49.931Z", "date_modified": "2026-03-12T19:55:49.931Z", "_original_published": "2026-03-12T19:40:05.000Z", "_original_language": "en", "_translations": { "en": { "title": "Webb spots details in nearby spiral galaxy NGC 5134" }, "zh-Hans": { "title": "韦伯望远镜在邻近螺旋星系NGC 5134中发现细节" }, "ja": { "title": "ウェブが近傍の渦巻銀河NGC 5134の詳細を捉える" }, "zh-Hant": { "title": "韋伯望遠鏡在鄰近螺旋星系NGC 5134中發現細節" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/webb-spots-details-in.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-13  Webb spots details in nearby spiral galaxy NGC 5134 (phys.org)" }, { "title": "花粉替代饲料增强蜜蜂群落,长期研究证实", "summary": "Pollen-replacing feed strengthens honey bee colonies, long-term study confirms", "content_text": "Pollen-replacing feed strengthens honey bee colonies, long-term study confirms #plants #animals\n原文地址: https://phys.org/news/2026-03-pollen-honey-bee-colonies-term.html", "content_html": "
\"scx1.b-cdn.net
Pollen-replacing feed strengthens honey bee colonies, long-term study confirms (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692534881/", "url": "https://phys.org/news/2026-03-pollen-honey-bee-colonies-term.html", "date_published": "2026-03-12T19:55:49.927Z", "date_modified": "2026-03-12T19:55:49.927Z", "_original_published": "2026-03-12T19:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pollen-replacing feed strengthens honey bee colonies, long-term study confirms" }, "zh-Hans": { "title": "花粉替代饲料增强蜜蜂群落,长期研究证实" }, "ja": { "title": "花粉代替飼料がミツバチのコロニーを強化することを、長期研究が確認" }, "zh-Hant": { "title": "花粉替代飼料增強蜜蜂群落,長期研究證實" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/long-term-study-confir.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Pollen-replacing feed strengthens honey bee colonies, long-term study confirms (phys.org)" }, { "title": "卫星数据显示,孟加拉湾的桑德班斯红树林正逐渐丧失其生态韧性。", "summary": "Satellite data suggest Sundarbans mangroves are losing resilience", "content_text": "Satellite data suggest Sundarbans mangroves are losing resilience #ecology\n原文地址: https://phys.org/news/2026-03-satellite-sundarbans-mangroves-resilience.html", "content_html": "
\"scx1.b-cdn.net
Satellite data suggest Sundarbans mangroves are losing resilience (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547061/", "url": "https://phys.org/news/2026-03-satellite-sundarbans-mangroves-resilience.html", "date_published": "2026-03-12T19:40:11.605Z", "date_modified": "2026-03-12T19:40:11.605Z", "_original_published": "2026-03-12T19:30:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Satellite data suggest Sundarbans mangroves are losing resilience" }, "zh-Hans": { "title": "卫星数据显示,孟加拉湾的桑德班斯红树林正逐渐丧失其生态韧性。" }, "ja": { "title": "衛星データは、スンダルバンのマングローブ林が回復力を失っていることを示唆している" }, "zh-Hant": { "title": "衛星數據顯示,孟加拉灣的桑德班斯紅樹林正逐漸喪失其生態韌性。" } }, "tags": [ "Ecology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-role-of-biodiversi.jpg", "_tag_links": [ { "name": "Ecology", "url": "https://i.buzzing.cc/phys/tags/ecology/" } ], "_lite_content_html": "03-13  Satellite data suggest Sundarbans mangroves are losing resilience (phys.org)" }, { "title": "美国宇航局完成维修后,批准其阿耳忒弥斯登月火箭于四月搭载四名宇航员发射升空", "summary": "NASA clears its Artemis moon rocket for an April launch with four astronauts following repairs", "content_text": "NASA clears its Artemis moon rocket for an April launch with four astronauts following repairs #space #exploration\n原文地址: https://phys.org/news/2026-03-nasa-artemis-moon-rocket-april.html", "content_html": "
\"scx1.b-cdn.net
NASA clears its Artemis moon rocket for an April launch with four astronauts following repairs (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692547818/", "url": "https://phys.org/news/2026-03-nasa-artemis-moon-rocket-april.html", "date_published": "2026-03-12T19:40:11.601Z", "date_modified": "2026-03-12T19:40:11.601Z", "_original_published": "2026-03-12T19:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "NASA clears its Artemis moon rocket for an April launch with four astronauts following repairs" }, "zh-Hans": { "title": "美国宇航局完成维修后,批准其阿耳忒弥斯登月火箭于四月搭载四名宇航员发射升空" }, "ja": { "title": "NASAは修理を経て、4月に4人の宇宙飛行士を乗せたアルテミス月ロケットの打ち上げを承認した" }, "zh-Hant": { "title": "美國宇航局完成維修後,批准其阿耳忒彌斯登月火箭於四月搭載四名宇航員發射升空" } }, "tags": [ "Space", "Exploration" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nasa-clears-its-artemi.jpg", "_tag_links": [ { "name": "Space", "url": "https://i.buzzing.cc/phys/tags/space/" }, { "name": "Exploration", "url": "https://i.buzzing.cc/phys/tags/exploration/" } ], "_lite_content_html": "03-13  NASA clears its Artemis moon rocket for an April launch with four astronauts following repairs (phys.org)" }, { "title": "上埃及遗址迄今已出土逾43,000片刻有铭文的陶片,堪称创纪录的信息宝库。", "summary": "Upper Egypt site has now yielded more than 43,000 inscribed pot sherds, a record-breaking trove of information", "content_text": "Upper Egypt site has now yielded more than 43,000 inscribed pot sherds, a record-breaking trove of information #archaeology\n原文地址: https://phys.org/news/2026-03-upper-egypt-site-yielded-inscribed.html", "content_html": "
\"scx1.b-cdn.net
Upper Egypt site has now yielded more than 43,000 inscribed pot sherds, a record-breaking trove of information (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692534522/", "url": "https://phys.org/news/2026-03-upper-egypt-site-yielded-inscribed.html", "date_published": "2026-03-12T19:24:09.348Z", "date_modified": "2026-03-12T19:24:09.348Z", "_original_published": "2026-03-12T19:20:10.000Z", "_original_language": "en", "_translations": { "en": { "title": "Upper Egypt site has now yielded more than 43,000 inscribed pot sherds, a record-breaking trove of information" }, "zh-Hans": { "title": "上埃及遗址迄今已出土逾43,000片刻有铭文的陶片,堪称创纪录的信息宝库。" }, "ja": { "title": "上エジプト遺跡からはこれまでに43,000点以上の刻印陶片が出土しており、これは記録的な情報源となっている" }, "zh-Hant": { "title": "上埃及遺址迄今已出土逾43,000片刻有銘文的陶片,堪稱創紀錄的信息寶庫。" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/record-breaking-trove.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-13  Upper Egypt site has now yielded more than 43,000 inscribed pot sherds, a record-breaking trove of information (phys.org)" }, { "title": "一种常见的水凝胶可能与人们的假设不同,其构造方式可能对力学特性产生重大影响。", "summary": "A common hydrogel may be built differently than assumed, with big implications for mechanics", "content_text": "A common hydrogel may be built differently than assumed, with big implications for mechanics #polymers\n原文地址: https://phys.org/news/2026-03-common-hydrogel-built-differently-assumed.html", "content_html": "
\"scx1.b-cdn.net
A common hydrogel may be built differently than assumed, with big implications for mechanics (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692534041/", "url": "https://phys.org/news/2026-03-common-hydrogel-built-differently-assumed.html", "date_published": "2026-03-12T19:07:57.832Z", "date_modified": "2026-03-12T19:07:57.832Z", "_original_published": "2026-03-12T19:00:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "A common hydrogel may be built differently than assumed, with big implications for mechanics" }, "zh-Hans": { "title": "一种常见的水凝胶可能与人们的假设不同,其构造方式可能对力学特性产生重大影响。" }, "ja": { "title": "一般的なハイドロゲルは想定とは異なる構造を持つ可能性があり、力学特性に重大な影響を及ぼす" }, "zh-Hant": { "title": "一種常見的水凝膠可能與人們的假設不同,其構造方式可能對力學特性產生重大影響。" } }, "tags": [ "Polymers" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/researchers-overturn-a.jpg", "_tag_links": [ { "name": "Polymers", "url": "https://i.buzzing.cc/phys/tags/polymers/" } ], "_lite_content_html": "03-13  A common hydrogel may be built differently than assumed, with big implications for mechanics (phys.org)" }, { "title": "不对称自旋扭矩开启反铁磁存储器的确定性控制", "summary": "Asymmetric spin torque unlocks deterministic control of antiferromagnetic memory", "content_text": "Asymmetric spin torque unlocks deterministic control of antiferromagnetic memory #condensed #matter\n原文地址: https://phys.org/news/2026-03-asymmetric-torque-deterministic-antiferromagnetic-memory.html", "content_html": "
\"scx1.b-cdn.net
Asymmetric spin torque unlocks deterministic control of antiferromagnetic memory (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692543266/", "url": "https://phys.org/news/2026-03-asymmetric-torque-deterministic-antiferromagnetic-memory.html", "date_published": "2026-03-12T18:52:11.843Z", "date_modified": "2026-03-12T18:52:11.843Z", "_original_published": "2026-03-12T18:50:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Asymmetric spin torque unlocks deterministic control of antiferromagnetic memory" }, "zh-Hans": { "title": "不对称自旋扭矩开启反铁磁存储器的确定性控制" }, "ja": { "title": "非対称スピントルクが反強磁性メモリの決定論的制御を実現" }, "zh-Hant": { "title": "不對稱自旋扭矩開啟反鐵磁存儲器的確定性控制" } }, "tags": [ "Condensed", "Matter" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/asymmetric-spin-torque.jpg", "_tag_links": [ { "name": "Condensed", "url": "https://i.buzzing.cc/phys/tags/condensed/" }, { "name": "Matter", "url": "https://i.buzzing.cc/phys/tags/matter/" } ], "_lite_content_html": "03-13  Asymmetric spin torque unlocks deterministic control of antiferromagnetic memory (phys.org)" }, { "title": "胶囊技术为观察单个细胞开启新窗口", "summary": "Capsule technology opens new window into individual cells", "content_text": "Capsule technology opens new window into individual cells #cell #microbiology\n原文地址: https://phys.org/news/2026-03-capsule-technology-window-individual-cells.html", "content_html": "
\"scx1.b-cdn.net
Capsule technology opens new window into individual cells (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692532602/", "url": "https://phys.org/news/2026-03-capsule-technology-window-individual-cells.html", "date_published": "2026-03-12T18:52:11.839Z", "date_modified": "2026-03-12T18:52:11.839Z", "_original_published": "2026-03-12T18:40:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "Capsule technology opens new window into individual cells" }, "zh-Hans": { "title": "胶囊技术为观察单个细胞开启新窗口" }, "ja": { "title": "カプセル技術が個々の細胞への新たな窓を開く" }, "zh-Hant": { "title": "膠囊技術為觀察單個細胞開啟新窗口" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/capsule-technology-ope-1.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Capsule technology opens new window into individual cells (phys.org)" }, { "title": "记录孟加拉国某采矿作业中商业利益与环境保护之间的冲突", "summary": "Documenting conflict between commerce and conservation at a mining operation in Bangladesh", "content_text": "Documenting conflict between commerce and conservation at a mining operation in Bangladesh #environment\n原文地址: https://phys.org/news/2026-03-documenting-conflict-commerce-bangladesh.html", "content_html": "
\"scx1.b-cdn.net
Documenting conflict between commerce and conservation at a mining operation in Bangladesh (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692544841/", "url": "https://phys.org/news/2026-03-documenting-conflict-commerce-bangladesh.html", "date_published": "2026-03-12T18:52:11.835Z", "date_modified": "2026-03-12T18:52:11.835Z", "_original_published": "2026-03-12T18:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Documenting conflict between commerce and conservation at a mining operation in Bangladesh" }, "zh-Hans": { "title": "记录孟加拉国某采矿作业中商业利益与环境保护之间的冲突" }, "ja": { "title": "バングラデシュの鉱山事業における商業と環境保護の対立の記録" }, "zh-Hant": { "title": "記錄孟加拉國某採礦作業中商業利益與環境保護之間的衝突" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/study-documents-confli-1.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  Documenting conflict between commerce and conservation at a mining operation in Bangladesh (phys.org)" }, { "title": "音乐学家将中世纪圣咏变奏曲与9世纪政治边界进行对照", "summary": "Musicologists map medieval chant tropes to 9th-century political borders", "content_text": "Musicologists map medieval chant tropes to 9th-century political borders #archaeology\n原文地址: https://phys.org/news/2026-03-musicologists-medieval-chant-tropes-9th.html", "content_html": "
\"scx1.b-cdn.net
Musicologists map medieval chant tropes to 9th-century political borders (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692532541/", "url": "https://phys.org/news/2026-03-musicologists-medieval-chant-tropes-9th.html", "date_published": "2026-03-12T18:35:59.857Z", "date_modified": "2026-03-12T18:35:59.857Z", "_original_published": "2026-03-12T18:20:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Musicologists map medieval chant tropes to 9th-century political borders" }, "zh-Hans": { "title": "音乐学家将中世纪圣咏变奏曲与9世纪政治边界进行对照" }, "ja": { "title": "音楽学者たちは中世の聖歌のトロープを9世紀の政治的境界線に照合する" }, "zh-Hant": { "title": "音樂學家將中世紀聖詠變奏曲與9世紀政治邊界進行對照" } }, "tags": [ "Archaeology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/how-political-borders.jpg", "_tag_links": [ { "name": "Archaeology", "url": "https://i.buzzing.cc/phys/tags/archaeology/" } ], "_lite_content_html": "03-13  Musicologists map medieval chant tropes to 9th-century political borders (phys.org)" }, { "title": "在深邃的地底,望远镜或许很快就能探测到那些在地球诞生之前就已消亡的恒星的幽灵。", "summary": "Deep underground, a telescope may soon detect ghosts of stars that died before Earth existed", "content_text": "Deep underground, a telescope may soon detect ghosts of stars that died before Earth existed #astronomy\n原文地址: https://phys.org/news/2026-03-deep-underground-telescope-ghosts-stars.html", "content_html": "
\"scx1.b-cdn.net
Deep underground, a telescope may soon detect ghosts of stars that died before Earth existed (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692542683/", "url": "https://phys.org/news/2026-03-deep-underground-telescope-ghosts-stars.html", "date_published": "2026-03-12T18:35:59.853Z", "date_modified": "2026-03-12T18:35:59.853Z", "_original_published": "2026-03-12T18:20:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Deep underground, a telescope may soon detect ghosts of stars that died before Earth existed" }, "zh-Hans": { "title": "在深邃的地底,望远镜或许很快就能探测到那些在地球诞生之前就已消亡的恒星的幽灵。" }, "ja": { "title": "地球が存在するより前に消えた星々の亡霊を、深地下の望遠鏡が間もなく捉えるかもしれない" }, "zh-Hant": { "title": "在深邃的地底,望遠鏡或許很快就能探測到那些在地球誕生之前就已消亡的恆星的幽靈。" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2025/star.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-13  Deep underground, a telescope may soon detect ghosts of stars that died before Earth existed (phys.org)" }, { "title": "美国宇航局微型航天器传回首张系外行星图像", "summary": "NASA''s tiny spacecraft sends first exoplanet images", "content_text": "NASA''s tiny spacecraft sends first exoplanet images #astronomy\n原文地址: https://phys.org/news/2026-03-nasa-tiny-spacecraft-exoplanet-images.html", "content_html": "
\"scx1.b-cdn.net
NASA''s tiny spacecraft sends first exoplanet images (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692542793/", "url": "https://phys.org/news/2026-03-nasa-tiny-spacecraft-exoplanet-images.html", "date_published": "2026-03-12T18:04:17.829Z", "date_modified": "2026-03-12T18:04:17.829Z", "_original_published": "2026-03-12T18:02:08.000Z", "_original_language": "en", "_translations": { "en": { "title": "NASA''s tiny spacecraft sends first exoplanet images" }, "zh-Hans": { "title": "美国宇航局微型航天器传回首张系外行星图像" }, "ja": { "title": "NASAの小型宇宙船が初の系外惑星画像を送信" }, "zh-Hant": { "title": "美國宇航局微型航天器傳回首張系外行星圖像" } }, "tags": [ "Astronomy" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/nasas-tiny-spacecraft.jpg", "_tag_links": [ { "name": "Astronomy", "url": "https://i.buzzing.cc/phys/tags/astronomy/" } ], "_lite_content_html": "03-13  NASA''s tiny spacecraft sends first exoplanet images (phys.org)" }, { "title": "四维胚胎发生:基因与细胞的发育图谱", "summary": "Embryogenesis in 4D: A developmental atlas for genes and cells", "content_text": "Embryogenesis in 4D: A developmental atlas for genes and cells #cell #microbiology\n原文地址: https://phys.org/news/2026-03-embryogenesis-4d-developmental-atlas-genes.html", "content_html": "
\"scx1.b-cdn.net
Embryogenesis in 4D: A developmental atlas for genes and cells (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692525221/", "url": "https://phys.org/news/2026-03-embryogenesis-4d-developmental-atlas-genes.html", "date_published": "2026-03-12T18:04:17.826Z", "date_modified": "2026-03-12T18:04:17.826Z", "_original_published": "2026-03-12T18:00:18.000Z", "_original_language": "en", "_translations": { "en": { "title": "Embryogenesis in 4D: A developmental atlas for genes and cells" }, "zh-Hans": { "title": "四维胚胎发生:基因与细胞的发育图谱" }, "ja": { "title": "4D胚発生:遺伝子と細胞のための発生アトラス" }, "zh-Hant": { "title": "四維胚胎發生:基因與細胞的發育圖譜" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/embryogenesis-in-4d-a.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Embryogenesis in 4D: A developmental atlas for genes and cells (phys.org)" }, { "title": "快速进化能否让物种在气候变化中\"幸免于难\"?", "summary": "Can rapid evolution ''rescue'' species from climate change?", "content_text": "Can rapid evolution ''rescue'' species from climate change? #plants #animals\n原文地址: https://phys.org/news/2026-03-rapid-evolution-species-climate.html", "content_html": "
\"scx1.b-cdn.net
Can rapid evolution ''rescue'' species from climate change? (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692523302/", "url": "https://phys.org/news/2026-03-rapid-evolution-species-climate.html", "date_published": "2026-03-12T18:04:17.822Z", "date_modified": "2026-03-12T18:04:17.822Z", "_original_published": "2026-03-12T18:00:15.000Z", "_original_language": "en", "_translations": { "en": { "title": "Can rapid evolution ''rescue'' species from climate change?" }, "zh-Hans": { "title": "快速进化能否让物种在气候变化中\"幸免于难\"?" }, "ja": { "title": "急速な進化は気候変動から種を「救う」ことができるのか?" }, "zh-Hant": { "title": "快速進化能否讓物種在氣候變化中\"倖免於難\"?" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/can-rapid-evolution-re.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Can rapid evolution ''rescue'' species from climate change? (phys.org)" }, { "title": "狼群猎杀——而乌鸦铭记猎食之地", "summary": "Wolves kill—and ravens remember where", "content_text": "Wolves kill—and ravens remember where #plants #animals\n原文地址: https://phys.org/news/2026-03-wolves-ravens.html", "content_html": "
\"scx1.b-cdn.net
Wolves kill—and ravens remember where (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692523299/", "url": "https://phys.org/news/2026-03-wolves-ravens.html", "date_published": "2026-03-12T18:04:17.819Z", "date_modified": "2026-03-12T18:04:17.819Z", "_original_published": "2026-03-12T18:00:11.000Z", "_original_language": "en", "_translations": { "en": { "title": "Wolves kill—and ravens remember where" }, "zh-Hans": { "title": "狼群猎杀——而乌鸦铭记猎食之地" }, "ja": { "title": "狼は殺す―そしてカラスはその場所を覚えている" }, "zh-Hant": { "title": "狼群獵殺——而烏鴉銘記獵食之地" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/wolves-killand-ravens.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  Wolves kill—and ravens remember where (phys.org)" }, { "title": "揭示植物进化过程中调控基因功能的远古DNA序列", "summary": "Ancient DNA sequences that control gene function across plant evolution uncovered", "content_text": "Ancient DNA sequences that control gene function across plant evolution uncovered #evolution\n原文地址: https://phys.org/news/2026-03-ancient-dna-sequences-gene-function.html", "content_html": "
\"scx1.b-cdn.net
Ancient DNA sequences that control gene function across plant evolution uncovered (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692529757/", "url": "https://phys.org/news/2026-03-ancient-dna-sequences-gene-function.html", "date_published": "2026-03-12T18:04:17.815Z", "date_modified": "2026-03-12T18:04:17.815Z", "_original_published": "2026-03-12T18:00:07.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ancient DNA sequences that control gene function across plant evolution uncovered" }, "zh-Hans": { "title": "揭示植物进化过程中调控基因功能的远古DNA序列" }, "ja": { "title": "植物進化における遺伝子機能を制御する古代DNA配列が解明される" }, "zh-Hant": { "title": "揭示植物進化過程中調控基因功能的遠古DNA序列" } }, "tags": [ "Evolution" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/secrets-of-evolution-f.jpg", "_tag_links": [ { "name": "Evolution", "url": "https://i.buzzing.cc/phys/tags/evolution/" } ], "_lite_content_html": "03-13  Ancient DNA sequences that control gene function across plant evolution uncovered (phys.org)" }, { "title": "木材表面处理对抗有害细菌", "summary": "Wood surface treatment fights harmful bacteria", "content_text": "Wood surface treatment fights harmful bacteria #cell #microbiology\n原文地址: https://phys.org/news/2026-03-wood-surface-treatment-bacteria.html", "content_html": "
\"scx1.b-cdn.net
Wood surface treatment fights harmful bacteria (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692539262/", "url": "https://phys.org/news/2026-03-wood-surface-treatment-bacteria.html", "date_published": "2026-03-12T17:48:18.501Z", "date_modified": "2026-03-12T17:48:18.501Z", "_original_published": "2026-03-12T17:40:06.000Z", "_original_language": "en", "_translations": { "en": { "title": "Wood surface treatment fights harmful bacteria" }, "zh-Hans": { "title": "木材表面处理对抗有害细菌" }, "ja": { "title": "木材表面処理が有害な細菌と戦う" }, "zh-Hant": { "title": "木材表面處理對抗有害細菌" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/wood-surface-treatment.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  Wood surface treatment fights harmful bacteria (phys.org)" }, { "title": "双胞胎的力量:解码隐形的生物信息流", "summary": "The power of twins: Decoding the unseen biological information flow", "content_text": "The power of twins: Decoding the unseen biological information flow #cell #microbiology\n原文地址: https://phys.org/news/2026-03-power-twins-decoding-unseen-biological.html", "content_html": "
\"scx1.b-cdn.net
The power of twins: Decoding the unseen biological information flow (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692531894/", "url": "https://phys.org/news/2026-03-power-twins-decoding-unseen-biological.html", "date_published": "2026-03-12T17:48:18.497Z", "date_modified": "2026-03-12T17:48:18.497Z", "_original_published": "2026-03-12T17:40:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "The power of twins: Decoding the unseen biological information flow" }, "zh-Hans": { "title": "双胞胎的力量:解码隐形的生物信息流" }, "ja": { "title": "双子の力:見えない生物学的情報の流れを解読する" }, "zh-Hant": { "title": "雙胞胎的力量:解碼隱形的生物信息流" } }, "tags": [ "Cell", "&", "Microbiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/the-power-of-twins-dec.jpg", "_tag_links": [ { "name": "Cell", "url": "https://i.buzzing.cc/phys/tags/cell/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Microbiology", "url": "https://i.buzzing.cc/phys/tags/microbiology/" } ], "_lite_content_html": "03-13  The power of twins: Decoding the unseen biological information flow (phys.org)" }, { "title": "Z世代要求企业为绿色洗白行为负责", "summary": "Gen Z holds companies to account for greenwashing", "content_text": "Gen Z holds companies to account for greenwashing #social #sciences\n原文地址: https://phys.org/news/2026-03-gen-companies-account-greenwashing.html", "content_html": "
\"scx1.b-cdn.net
Gen Z holds companies to account for greenwashing (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692538721/", "url": "https://phys.org/news/2026-03-gen-companies-account-greenwashing.html", "date_published": "2026-03-12T17:32:20.807Z", "date_modified": "2026-03-12T17:32:20.807Z", "_original_published": "2026-03-12T17:30:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "Gen Z holds companies to account for greenwashing" }, "zh-Hans": { "title": "Z世代要求企业为绿色洗白行为负责" }, "ja": { "title": "Z世代はグリーンウォッシュについて企業に説明責任を求める" }, "zh-Hant": { "title": "Z世代要求企業為綠色洗白行為負責" } }, "tags": [ "Social", "Sciences" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/greenwashing.jpg", "_tag_links": [ { "name": "Social", "url": "https://i.buzzing.cc/phys/tags/social/" }, { "name": "Sciences", "url": "https://i.buzzing.cc/phys/tags/sciences/" } ], "_lite_content_html": "03-13  Gen Z holds companies to account for greenwashing (phys.org)" }, { "title": "熟悉的声音塑造斑马雀的听觉感知与行为反应", "summary": "A familiar voice shapes how zebra finches hear and respond", "content_text": "A familiar voice shapes how zebra finches hear and respond #plants #animals\n原文地址: https://phys.org/news/2026-03-familiar-voice-zebra-finches.html", "content_html": "
\"scx1.b-cdn.net
A familiar voice shapes how zebra finches hear and respond (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692528870/", "url": "https://phys.org/news/2026-03-familiar-voice-zebra-finches.html", "date_published": "2026-03-12T17:32:20.803Z", "date_modified": "2026-03-12T17:32:20.803Z", "_original_published": "2026-03-12T17:20:04.000Z", "_original_language": "en", "_translations": { "en": { "title": "A familiar voice shapes how zebra finches hear and respond" }, "zh-Hans": { "title": "熟悉的声音塑造斑马雀的听觉感知与行为反应" }, "ja": { "title": "聞き慣れた声がシマエナガの聴覚と反応を形作る" }, "zh-Hant": { "title": "熟悉的聲音塑造斑馬雀的聽覺感知與行為反應" } }, "tags": [ "Plants", "&", "Animals" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/a-familiar-voice-shape.jpg", "_tag_links": [ { "name": "Plants", "url": "https://i.buzzing.cc/phys/tags/plants/" }, { "name": "&", "url": "https://i.buzzing.cc/phys/tags//" }, { "name": "Animals", "url": "https://i.buzzing.cc/phys/tags/animals/" } ], "_lite_content_html": "03-13  A familiar voice shapes how zebra finches hear and respond (phys.org)" }, { "title": "离子液体或将重新定义宜居带", "summary": "''Ionic liquids'' could redefine the habitable zone", "content_text": "''Ionic liquids'' could redefine the habitable zone #astrobiology\n原文地址: https://phys.org/news/2026-03-ionic-liquids-redefine-habitable-zone.html", "content_html": "
\"scx1.b-cdn.net
''Ionic liquids'' could redefine the habitable zone (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692536413/", "url": "https://phys.org/news/2026-03-ionic-liquids-redefine-habitable-zone.html", "date_published": "2026-03-12T17:32:20.799Z", "date_modified": "2026-03-12T17:32:20.799Z", "_original_published": "2026-03-12T17:20:01.000Z", "_original_language": "en", "_translations": { "en": { "title": "''Ionic liquids'' could redefine the habitable zone" }, "zh-Hans": { "title": "离子液体或将重新定义宜居带" }, "ja": { "title": "「イオン性液体」がハビタブルゾーンの再定義につながる可能性" }, "zh-Hant": { "title": "離子液體或將重新定義宜居帶" } }, "tags": [ "Astrobiology" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ionic-liquids-could-re.jpg", "_tag_links": [ { "name": "Astrobiology", "url": "https://i.buzzing.cc/phys/tags/astrobiology/" } ], "_lite_content_html": "03-13  ''Ionic liquids'' could redefine the habitable zone (phys.org)" }, { "title": "工业气候目标未必能真实反映企业的实际行动", "summary": "Industrial climate targets do not always reflect what companies actually do", "content_text": "Industrial climate targets do not always reflect what companies actually do #environment\n原文地址: https://phys.org/news/2026-03-industrial-climate-companies.html", "content_html": "
\"scx1.b-cdn.net
Industrial climate targets do not always reflect what companies actually do (phys.org)
", "id": "https://i.buzzing.cc/phys/posts/2026/11/en_phys_2026_03_12__news692538421/", "url": "https://phys.org/news/2026-03-industrial-climate-companies.html", "date_published": "2026-03-12T17:16:18.593Z", "date_modified": "2026-03-12T17:16:18.593Z", "_original_published": "2026-03-12T17:10:02.000Z", "_original_language": "en", "_translations": { "en": { "title": "Industrial climate targets do not always reflect what companies actually do" }, "zh-Hans": { "title": "工业气候目标未必能真实反映企业的实际行动" }, "ja": { "title": "産業の気候目標は、必ずしも企業が実際に行っていることを反映しているわけではない" }, "zh-Hant": { "title": "工業氣候目標未必能真實反映企業的實際行動" } }, "tags": [ "Environment" ], "image": "https://scx1.b-cdn.net/csz/news/tmb/2026/pollution-sweden.jpg", "_tag_links": [ { "name": "Environment", "url": "https://i.buzzing.cc/phys/tags/environment/" } ], "_lite_content_html": "03-13  Industrial climate targets do not always reflect what companies actually do (phys.org)" } ], "_title_suffix": " - 用中文浏览 phys.org 最新报道", "_image": "https://scx1.b-cdn.net/csz/news/tmb/2026/ornl-goes-all-in-on-ta.jpg", "_site_tags": [ "tech", "source-phys" ], "_tags": [ "Science", "Materials", "Business", "&", "Economics", "Polymers", "Environment", "Medicine", "Bio", "Chemistry", "Analytical", "Ecology", "Nanophysics", "Biochemistry", "Animals", "Plants", "Microbiology", "Cell", "Mathematics", "biology", "Computational", "Molecular", "Nanomaterials", "Photonics", "Optics", "Sciences", "Planetary", "Other", "Education", "Archaeology", "science", "Political", "Earth", "Astronomy", "Social", "Physics", "Quantum", "Exploration", "Space", "General", "Matter", "Condensed", "Astrobiology", "Superconductivity", "Biotechnology", "Evolution", "Fossils", "Paleontology", "medicine", "Veterinary", "Soft", "Agriculture", "Plasma", "informatics", "Health", "economics", "Medical", "Psychiatry", "Psychology", "Engineering", "Syndromes", "Conditions,", "Diseases," ], "_archive": [ "2026/12", "2026/11", "2026/10", "2026/9", "2026/8", "2026/7", "2026/6", "2026/5", "2026/4", "2026/3", "2026/2", "2026/1", "2025/52", "2025/51", "2025/50", "2025/49", "2025/48", "2025/47", "2025/46", "2025/45", "2025/44", "2025/43", "2025/42", "2025/41", "2025/40", "2025/39", "2025/38", "2025/37", "2025/36", "2025/35", "2025/34", "2025/33", "2025/32", "2025/31", "2025/30", "2025/29", "2025/28", "2025/27", "2025/26", "2025/25", "2025/24", "2025/23", "2025/22", "2025/21", "2025/20", "2025/19", "2025/18", "2025/17", "2025/16", "2025/15", "2025/14", "2025/13", "2025/12", "2025/11", "2025/10", "2025/9", "2025/8", "2025/7", "2025/6", "2025/5", "2025/4", "2025/3", "2025/2", "2025/1", "2024/52", "2024/51", "2024/50", "2024/49", "2024/48", "2024/47", "2024/46", "2024/45", "2024/44", "2024/43", "2024/42", "2024/41", "2024/40", "2024/39", "2024/38", "2024/37", "2024/36", "2024/35", "2024/34", "2024/33", "2024/32", "2024/31", "2024/30", "2024/29", "2024/28", "2024/27", "2024/26", "2024/25", "2024/24", "2024/23", "2024/22", "2024/21", "2024/20", "2024/19", "2024/18", "2024/17", "2024/16", "2024/15", "2024/14", "2024/13", "2024/12", "2024/11", "2024/10", "2024/9", "2024/8", "2024/7", "2024/6", "2024/5", "2024/4", "2024/3", "2024/2", "2024/1", "2023/52", "2023/51", "2023/50", "2023/49", "2023/48", "2023/47", "2023/46", "2023/45", "2023/44", "2023/43", "2023/42", "2023/41", "2023/40", "2023/39", "2023/38", "2023/37", "2023/36", "2023/35", "2023/34", "2023/33", "2023/32", "2023/31", "2023/30", "2023/29", "2023/28", "2023/27", "2023/26", "2023/25", "2023/24", "2023/23", "2023/22", "2023/21", "2023/20", "2023/19", "2023/18", "2023/17", "2023/16", "2023/15", "2023/14", "2023/13" ] }