物理
共振非弹性X射线散射
原子物理学
非弹性散射
反褶积
散射
光学
带宽(计算)
电子结构
X射线拉曼散射
凝聚态物理
计算机网络
计算机科学
作者
Alessandro Forte,Thomas Gawne,Karim K. Alaa El-Din,Oliver Humphries,Thomas R. Preston,Céline Crépisson,Thomas F. Campbell,Pontus Svensson,Sam Azadi,P. G. Heighway,Yuanfeng Shi,D. A. Chin,Ethan Smith,Carsten Baehtz,V. Bouffetier,Hauke Höppner,Alexis Amouretti,D. McGonegle,M. Harmand,Gilbert Collins
标识
DOI:10.1038/s42005-024-01752-0
摘要
Abstract Resonant inelastic x-ray scattering (RIXS) is a widely used spectroscopic technique, providing access to the electronic structure and dynamics of atoms, molecules, and solids. However, RIXS requires a narrow bandwidth x-ray probe to achieve high spectral resolution. The challenges in delivering an energetic monochromated beam from an x-ray free electron laser (XFEL) thus limit its use in few-shot experiments, including for the study of high energy density systems. Here we demonstrate that by correlating the measurements of the self-amplified spontaneous emission (SASE) spectrum of an XFEL with the RIXS signal, using a dynamic kernel deconvolution with a neural surrogate, we can achieve electronic structure resolutions substantially higher than those normally afforded by the bandwidth of the incoming x-ray beam. We further show how this technique allows us to discriminate between the valence structures of Fe and Fe 2 O 3 , and provides access to temperature measurements as well as M-shell binding energies estimates in warm-dense Fe compounds.
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