首页|Ab initio Maxwell-Bloch Approach for X-Ray Excitations in Two-Dimensional Materials

Ab initio Maxwell-Bloch Approach for X-Ray Excitations in Two-Dimensional Materials

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英文摘要

The combination of Maxwell and X-ray Bloch equations forms an appropriate framework to describe ultrafast time-resolved X-ray experiments on attosecond time scale in crystalline solids. However, broadband experiments such as X-ray absorption near edge spectroscopy or resonant inelastic X-ray scattering require a detailed knowledge of the electronic structure and transition matrix elements. Here, we show how to fill this gap by combining the Maxwell-X-ray Bloch formalism with first-principles calculations treating explicitly the core states. The resulting X-ray absorption spectrum recovers key spectral signatures which were missing in our previous work relying on a semi-empirical tight-binding approach.

作者：Joris Sturm、Ivan Maliyov、Dominik Christiansen、Malte Selig、Marco Bernardi、Andreas Knorr

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学科分类：物理学

推荐引用：Joris Sturm,Ivan Maliyov,Dominik Christiansen,Malte Selig,Marco Bernardi,Andreas Knorr.Ab initio Maxwell-Bloch Approach for X-Ray Excitations in Two-Dimensional Materials[EB/OL].(2025-04-15)[2025-05-03].https://arxiv.org/abs/2504.11226.点此复制

Ab initio Maxwell-Bloch Approach for X-Ray Excitations in Two-Dimensional Materials

Ab initio Maxwell-Bloch Approach for X-Ray Excitations in Two-Dimensional Materials

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