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利用激光驱动源在水窗波段进行的超快能量色散软X射线衍射

Ultrafast energy-dispersive soft-x-ray diffraction in the water window with a laser-driven source.

作者信息

Jarecki Jasmin, Hennecke Martin, Sidiropoulos Themistoklis, Schnuerer Matthias, Eisebitt Stefan, Schick Daniel

机构信息

Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie, Max-Born-Straße 2A, 12489 Berlin, Germany.

出版信息

Struct Dyn. 2024 Oct 11;11(5):054303. doi: 10.1063/4.0000270. eCollection 2024 Sep.

DOI:10.1063/4.0000270
PMID:39398360
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11470808/
Abstract

Time-resolved soft-x-ray-diffraction experiments give access to microscopic processes in a broad range of solid-state materials by probing ultrafast dynamics of ordering phenomena. While laboratory-based high-harmonic generation (HHG) light sources provide the required photon energies, their limited photon flux is distributed over a wide spectral range, rendering typical monochromatic diffraction schemes challenging. Here, we present a scheme for energy-dispersive soft-x-ray diffraction with femtosecond temporal resolution and photon energies across the water window from 200 to 600 eV. The experiment utilizes the broadband nature of the HHG emission to efficiently probe large slices in reciprocal space. As a proof-of-concept, we study the laser-induced structural dynamics of a Mo/Si superlattice in an ultrafast, non-resonant soft-x-ray diffraction experiment. We extract the underlying strain dynamics from the measured shift of its first order superlattice Bragg peak in reciprocal space at photon energies around 500 eV via soft-x-ray scattering simulations.

摘要

时间分辨软X射线衍射实验通过探测有序现象的超快动力学,能够研究多种固态材料中的微观过程。虽然基于实验室的高谐波产生(HHG)光源可提供所需的光子能量,但其有限的光子通量分布在较宽的光谱范围内,这使得典型的单色衍射方案颇具挑战性。在此,我们提出一种具有飞秒时间分辨率且光子能量跨越200至600 eV水窗范围的能量色散软X射线衍射方案。该实验利用HHG发射的宽带特性,有效地探测倒易空间中的大片区域。作为概念验证,我们在超快、非共振软X射线衍射实验中研究了Mo/Si超晶格的激光诱导结构动力学。我们通过软X射线散射模拟,从在500 eV左右光子能量下测量得到的倒易空间中其一阶超晶格布拉格峰的位移,提取出潜在的应变动力学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/e3540f6ce0cf/SDTYAE-000011-054303_1-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/781600f3895a/SDTYAE-000011-054303_1-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/a0072f568f00/SDTYAE-000011-054303_1-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/1f70e6ea458a/SDTYAE-000011-054303_1-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/e3540f6ce0cf/SDTYAE-000011-054303_1-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/781600f3895a/SDTYAE-000011-054303_1-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/a0072f568f00/SDTYAE-000011-054303_1-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/1f70e6ea458a/SDTYAE-000011-054303_1-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17d0/11470808/e3540f6ce0cf/SDTYAE-000011-054303_1-g004.jpg

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