时间分辨与能量分辨光电子显微镜揭示单层WS中的超快电子冷却与衰变

Ultrafast Electron Cooling and Decay in Monolayer WS Revealed by Time- and Energy-Resolved Photoemission Electron Microscopy.

作者信息

Li Yaolong, Liu Wei, Wang Yunkun, Xue Zhaohang, Leng Yu-Chen, Hu Aiqin, Yang Hong, Tan Ping-Heng, Liu Yunquan, Misawa Hiroaki, Sun Quan, Gao Yunan, Hu Xiaoyong, Gong Qihuang

机构信息

State Key Laboratory for Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University, Beijing 100871, China.

Frontiers Science Center for Nano-optoelectronics & Collaborative Innovation Center of Quantum Matter, Beijing 100871, China.

出版信息

Nano Lett. 2020 May 13;20(5):3747-3753. doi: 10.1021/acs.nanolett.0c00742. Epub 2020 Apr 8.

DOI:10.1021/acs.nanolett.0c00742

PMID:32242668

Abstract

A comprehensive understanding of the ultrafast electron dynamics in two-dimensional transition metal dichalcogenides (TMDs) is necessary for their applications in optoelectronic devices. In this work, we contribute a study of ultrafast electron cooling and decay dynamics in the supported and suspended monolayer WS by time- and energy-resolved photoemission electron microscopy (PEEM). Electron cooling in the Q valley of the conduction band is clearly resolved in energy and time, on a time scale of 0.3 ps. Electron decay is mainly via a defect trapping process on a time scale of several picoseconds. We observed that the trap states can be produced and increased by laser illumination under an ultrahigh vacuum, and the higher local optical-field intensity led to the faster increase of trap states. The enhanced defect trapping could significantly modify the carrier dynamics and should be paid attention to in photoemission experiments for two-dimensional materials.

摘要

全面了解二维过渡金属二硫属化物（TMDs）中的超快电子动力学对于其在光电器件中的应用至关重要。在这项工作中，我们通过时间分辨和能量分辨光发射电子显微镜（PEEM）对支撑和悬浮的单层WS中的超快电子冷却和衰减动力学进行了研究。在0.3皮秒的时间尺度上，在能量和时间上清晰地分辨出导带Q谷中的电子冷却。电子衰减主要通过几个皮秒时间尺度上的缺陷俘获过程。我们观察到，在超高真空下，激光照射可以产生并增加陷阱态，并且更高的局部光场强度导致陷阱态增加得更快。增强的缺陷俘获会显著改变载流子动力学，在二维材料的光发射实验中应予以关注。

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时间分辨与能量分辨光电子显微镜揭示单层WS中的超快电子冷却与衰变

Ultrafast Electron Cooling and Decay in Monolayer WS Revealed by Time- and Energy-Resolved Photoemission Electron Microscopy.

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