Real-time visualization of energy- and momentum-resolved carrier dynamics of spatially heterogeneous materials

Proc. Of the 7th Asian Spectroscopy Conference (ASC 2020) Pub Date : 2020-12-01 DOI:10.32655/asc_8-10_dec2020.55

Woo Kyung Chul, Xu Ce, Loh Zhi-Heng

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Abstract

Among a variety of methods for studying the ultrafast carrier dynamics in the solid-state materials, time-resolved photoemission electron microscopy (PEEM) has been regarded as a unique tool which can simultaneously achieve the femtosecond time resolution as well as non-diffraction-limited lateral spatial resolution, hence providing spatiotemporally resolved information on surfaces with structural heterogeneities [1]. When combined with an electron time-of-flight analyzer in the form of a delay-line detector [2], PEEM can be further extended to provide spectroscopic information. The consequent energy-resolved momentum-space images acquired at selected microscopic regions can be mapped, hence permitting the real-time visualization of the evolving photorelaxation dynamics of the band structure of solid-state materials. Here, preliminary spectromicroscopic results obtained from the time-resolved PEEM setup will be presented, and further on-going efforts to build a femtosecond megahertz-repetition-rate extreme ultraviolet radiation source will be introduced.

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空间非均质材料的能量和动量分辨载流子动力学的实时可视化

在多种研究固态材料中超快载流子动力学的方法中，时间分辨光电子显微镜(PEEM)被认为是一种独特的工具，它可以同时实现飞秒时间分辨率和无衍射限制的横向空间分辨率，从而提供具有结构非均质性[1]表面的时空分辨信息。当与以延迟线探测器[2]形式的电子飞行时间分析仪相结合时，PEEM可以进一步扩展以提供光谱信息。在选定的微观区域获得的能量分辨动量空间图像可以被映射，从而允许实时可视化固态材料带结构的光松弛动力学演变。在这里，将介绍从时间分辨PEEM装置获得的初步光谱显微镜结果，并介绍进一步正在进行的建立飞秒兆赫兹重复率极紫外辐射源的工作。

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Proc. Of the 7th Asian Spectroscopy Conference (ASC 2020)

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