研究者が電子の動きを見ることができる顕微鏡を開発(Freeze-frame: U of A researchers develop microscope that can see electrons in motion)

ad

2024-08-21 アリゾナ大学

アリゾナ大学の研究者たちは、電子が動く様子を捉えることができる世界最速の電子顕微鏡を開発しました。この「アトミクロスコピー」と呼ばれる技術は、これまで見ることができなかった電子の動きを、一秒間の一兆分の一(アト秒)という短い時間で撮影することが可能です。研究チームは、電子顕微鏡の時間分解能を大幅に向上させ、量子物理学や材料科学などの分野での新たな発見に貢献すると期待されています。

<関連情報>

アト秒電子顕微鏡と回折 Attosecond electron microscopy and diffraction

Dandan Hui, Husain Alqattan, Mohamed Sennary, Nikolay V. Golubev, and Mohammed Th. Hassan
Science Advances  Published:21 Aug 2024
DOI:https://doi.org/10.1126/sciadv.adp5805

研究者が電子の動きを見ることができる顕微鏡を開発(Freeze-frame: U of A researchers develop microscope that can see electrons in motion)

Abstract

Advances in attosecond spectroscopy have enabled tracing and controlling the electron motion dynamics in matter, although they have yielded insufficient information about the electron dynamic in the space domain. Hence, ultrafast electron and x-ray imaging tools have been developed to image the ultrafast dynamics of matter in real time and space. The cutting-edge temporal resolution of these imaging tools is on the order of a few tens to a hundred femtoseconds, limiting imaging to the atomic dynamics and leaving electron motion imaging out of reach. Here, we obtained the attosecond temporal resolution in the transmission electron microscope, which we coined “attomicroscopy.” We demonstrated this resolution by the attosecond diffraction measurements of the field-driven electron dynamics in graphene. This attosecond imaging tool would provide more insights into electron motion and directly connect it to the structural dynamics of matter in real-time and space domains, opening the door for long-anticipated real-life attosecond science applications in quantum physics, chemistry, and biology.

1700応用理学一般
ad
ad
Follow
ad
タイトルとURLをコピーしました