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【研究成果】藤野智子助教（森研）らは、柔軟性と秩序性を両立する分子性常磁性体を設計、温度🌡️によって二重膜構造、指組み構造、解離状態と構造を大きく変化させることに成功しました✨ issp.u-tokyo.ac.jp/maincontents/n…

【研究成果】松永研D3の藤本知宏さんらは、半導体に円偏光とバイアス電場を同時に与えた時に生じる起電力の正体、「光誘起逆スピンHall効果」と「電場誘起円偏光ガルバノ効果」を独立に計測することに成功しました😎 issp.u-tokyo.ac.jp/maincontents/n…

Research Associate Tomoko Fujino (from Mori Lab.) and colleagues successfully designed a molecular-based paramagnetic material that combines flexibility and order. They achieved significant structural transformations depending on temperature, including a

Doctoral student Tomohiro Fujino (Matsunaga Lab.) and colleagues successfully measured independently the electromotive force generated when circularly polarized light and a bias electric field are simultaneously applied to a semiconductor. The origin was

【締切延長📢5/30まで‼️】企業人材ニーズvs博士人材シーズマッチングワークショップ2025 東京エレクトロンや村田製作所など多数の企業とのマッチングの場です。進路を模索中の方は、ぜひご参加を✨ ◼️日時：6/10(火) 10-18時 ◼️対象： 本学の博士課程学生および若手研究者 issp.u-tokyo.ac.jp/maincontents/s…

【動画紹介📽️】一流科学者の「学び」に焦点🔎をあてた動画企画の第１回目に押川教授が登場✨ 科学の発見そのものは後世に残りますが、発見に至る"過程”や“思考の跡”は、ほとんど残ることがありません。どのように学んで考えを発展させたのか、、、ぜひご覧ください‼️ youtu.be/tiM6ZHYTFGM?si…

本日発行のNewton7月号📖に、加藤岳生准教授監修の記事「天然色の世界　あざやかな色彩はどのように生まれるのか？」が掲載されました✨ 物性研6F図書室でご覧になれます〜👀‼️

youtube.com/watch?v=tiM6ZH… Video Feature: Episode 1 – Prof. Oshikawa on Learning and Discovery! In this episode of our video series focusing on how top scientists learn and grow, we feature Professor Oshikawa. Scientific discoveries are often remembered, but the process and

x.com/UTokyo_issplib… Featured in the July 2025 Issue of Newton! An article supervised by Prof. Takeo Kato, titled “The World of Natural Colors: How Vivid Colors Are Created”, is featured in the July 2025 issue of Newton magazine. You can read it at the ISSP Library.

【動画紹介】押川教授のインタビュー動画の後編です🤨 「科学者たちはどう学ぶか」 今回は、大学院院生時代の発見秘話など、週末など時間のある時に見てほしい(聞いてほしい？)動画です youtu.be/vnK1sn0Y5qQ

【研究成果】カロテノイド色素を光捕集アンテナとして利用する、極めて高感度な光駆動水素イオンポンプタンパク質「ヘイムダルロドプシン」を発見👀✨ 真核生物の共通祖先に最も近い現生生物種の一つであるヘイムダル古細菌🦠から発見されました issp.u-tokyo.ac.jp/maincontents/n…

【受賞】田中駿介助教（吉信研、現AIST主任研究員）が日本表面真空学会の若手学会賞を受賞しました👏👏👏 遠赤外光〜中赤外光領域の赤外パルス検出法の開発と超広帯域振動分光への応用を行いました これまで観測できなかった原子・分子の動きが検出可能になるそうです😌 issp.u-tokyo.ac.jp/maincontents/n…

youtube.com/watch?v=vnK1sn… A new video just released! Please check out Part 2 of our interview with Professor Oshikawa: "How Scientists Learn.” From surprising discoveries to grad school memories, this behind-the-scenes look is ideal for watching or listening to when you have some

Scientists have discovered an exceptionally sensitive light-driven proton pump protein called Heimdallrhodopsin, which utilizes carotenoid pigments as light-harvesting antennas. This groundbreaking protein was identified in Heimdallarchaeota—one of the

Ultrafine laser processing on next-generation semiconductor glass substrates has been achieved! Hole drilling of less than 10 μm was successfully demonstrated using deep ultraviolet ultrashort pulse lasers. This breakthrough is expected to significantly

Research Associate Shunsuke Tanaka (formerly of Yoshinobu Lab, now Chief Researcher at AIST) has received the Young Scientist Award from the Surface Science Society of Japan. The award recognizes the development of infrared pulse detection in the far- to

newswitch.jp/p/45938 This achievement, submitted as a research result prior to publication, featured in the (June 4th, print edition) Nikkan Kogyo Shimbun under the headline: 'Microscale Holes in Glass Substrates for Next-Generation Semiconductors — The Significance of the