基于含时GW方法的二硫化钼时间分辨光电子能谱中的巨大自驱动激子-弗洛凯特征

Giant self-driven exciton-Floquet signatures in time-resolved photoemission spectroscopy of MoS from time-dependent GW approach.

作者信息

Chan Y-H, Qiu Diana Y, da Jornada Felipe H, Louie Steven G

机构信息

Department of Physics, University of California, Berkeley, CA 94720-7300.

Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720.

出版信息

Proc Natl Acad Sci U S A. 2023 Aug 8;120(32):e2301957120. doi: 10.1073/pnas.2301957120. Epub 2023 Jul 31.

DOI:10.1073/pnas.2301957120

PMID:37523533

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10410765/

Abstract

Time-resolved, angle-resolved photoemission spectroscopy (TR-ARPES) is a one-particle spectroscopic technique that can probe excitons (two-particle excitations) in momentum space. We present an ab initio, time-domain GW approach to TR-ARPES and apply it to monolayer MoS. We show that photoexcited excitons may be measured and quantified as satellite bands and lead to the renormalization of the quasiparticle bands. These features are explained in terms of an exciton-Floquet phenomenon induced by an exciton time-dependent bosonic field, which are orders of magnitude stronger than those of laser field-induced Floquet bands in low-dimensional semiconductors. Our findings imply a way to engineer Floquet matter through the coherent oscillation of excitons and open the new door for mechanisms for band structure engineering.

摘要

时间分辨角分辨光电子能谱（TR-ARPES）是一种单粒子光谱技术，可在动量空间中探测激子（双粒子激发）。我们提出了一种用于TR-ARPES的从头算时域GW方法，并将其应用于单层MoS₂。我们表明，光激发激子可以作为卫星带进行测量和量化，并导致准粒子带的重整化。这些特征可以用由激子随时间变化的玻色场诱导的激子弗洛凯现象来解释，其比低维半导体中激光场诱导的弗洛凯带强几个数量级。我们的发现暗示了一种通过激子的相干振荡来设计弗洛凯物质的方法，并为能带结构工程机制打开了新的大门。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a7bf/10410765/b4f4ead48c9a/pnas.2301957120fig01.jpg

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基于含时GW方法的二硫化钼时间分辨光电子能谱中的巨大自驱动激子-弗洛凯特征

Giant self-driven exciton-Floquet signatures in time-resolved photoemission spectroscopy of MoS from time-dependent GW approach.

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