超越自由电子近似的高能光发射终态。

High-energy photoemission final states beyond the free-electron approximation.

作者信息

Strocov V N, Lev L L, Alarab F, Constantinou P, Wang X, Schmitt T, Stock T J Z, Nicolaï L, Očenášek J, Minár J

机构信息

Swiss Light Source, Paul Scherrer Institute, 5232, Villigen-PSI, Switzerland.

Moscow Institute of Physics and Technology, 141701, Dolgoprudny, Russia.

出版信息

Nat Commun. 2023 Aug 10;14(1):4827. doi: 10.1038/s41467-023-40432-5.

DOI:10.1038/s41467-023-40432-5

PMID:37563126

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10415355/

Abstract

Three-dimensional (3D) electronic band structure is fundamental for understanding a vast diversity of physical phenomena in solid-state systems, including topological phases, interlayer interactions in van der Waals materials, dimensionality-driven phase transitions, etc. Interpretation of ARPES data in terms of 3D electron dispersions is commonly based on the free-electron approximation for the photoemission final states. Our soft-X-ray ARPES data on Ag metal reveals, however, that even at high excitation energies the final states can be a way more complex, incorporating several Bloch waves with different out-of-plane momenta. Such multiband final states manifest themselves as a complex structure and added broadening of the spectral peaks from 3D electron states. We analyse the origins of this phenomenon, and trace it to other materials such as Si and GaN. Our findings are essential for accurate determination of the 3D band structure over a wide range of materials and excitation energies in the ARPES experiment.

摘要

三维（3D）电子能带结构对于理解固态系统中多种多样的物理现象至关重要，这些现象包括拓扑相、范德华材料中的层间相互作用、维度驱动的相变等。根据3D电子色散来解释角分辨光电子能谱（ARPES）数据通常基于光发射终态的自由电子近似。然而，我们对银金属的软X射线ARPES数据表明，即使在高激发能量下，终态可能会复杂得多，包含几个具有不同面外动量的布洛赫波。这种多带终态表现为一种复杂结构，并使来自3D电子态的光谱峰加宽。我们分析了这一现象的起源，并将其追溯到其他材料，如硅和氮化镓。我们的发现对于在ARPES实验中准确确定广泛材料和激发能量范围内的3D能带结构至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e73d/10415355/ddc95ebfee8c/41467_2023_40432_Fig1_HTML.jpg

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超越自由电子近似的高能光发射终态。

High-energy photoemission final states beyond the free-electron approximation.

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