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Autori principali: Dornheim, Tobias, Döppner, Tilo, Baczewski, Andrew D., Tolias, Panagiotis, Böhme, Maximilian P., Moldabekov, Zhandos A., Gawne, Thomas, Ranjan, Divyanshu, Chapman, David A., MacDonald, Michael J., Preston, Thomas R., Kraus, Dominik, Vorberger, Jan
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2305.15305
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author Dornheim, Tobias
Döppner, Tilo
Baczewski, Andrew D.
Tolias, Panagiotis
Böhme, Maximilian P.
Moldabekov, Zhandos A.
Gawne, Thomas
Ranjan, Divyanshu
Chapman, David A.
MacDonald, Michael J.
Preston, Thomas R.
Kraus, Dominik
Vorberger, Jan
author_facet Dornheim, Tobias
Döppner, Tilo
Baczewski, Andrew D.
Tolias, Panagiotis
Böhme, Maximilian P.
Moldabekov, Zhandos A.
Gawne, Thomas
Ranjan, Divyanshu
Chapman, David A.
MacDonald, Michael J.
Preston, Thomas R.
Kraus, Dominik
Vorberger, Jan
contents We present a formally exact and simulation-free approach for the normalization of X-ray Thomson scattering (XRTS) spectra based on the f-sum rule of the imaginary-time correlation function (ITCF). Our method works for any degree of collectivity, over a broad range of temperatures, and is applicable even in nonequilibrium situations. In addition to giving us model-free access to electronic correlations, this new approach opens up the intriguing possibility to extract a plethora of physical properties from the ITCF based on XRTS experiments.
format Preprint
id arxiv_https___arxiv_org_abs_2305_15305
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle X-ray Thomson scattering absolute intensity from the f-sum rule in the imaginary-time domain
Dornheim, Tobias
Döppner, Tilo
Baczewski, Andrew D.
Tolias, Panagiotis
Böhme, Maximilian P.
Moldabekov, Zhandos A.
Gawne, Thomas
Ranjan, Divyanshu
Chapman, David A.
MacDonald, Michael J.
Preston, Thomas R.
Kraus, Dominik
Vorberger, Jan
Plasma Physics
Optics
We present a formally exact and simulation-free approach for the normalization of X-ray Thomson scattering (XRTS) spectra based on the f-sum rule of the imaginary-time correlation function (ITCF). Our method works for any degree of collectivity, over a broad range of temperatures, and is applicable even in nonequilibrium situations. In addition to giving us model-free access to electronic correlations, this new approach opens up the intriguing possibility to extract a plethora of physical properties from the ITCF based on XRTS experiments.
title X-ray Thomson scattering absolute intensity from the f-sum rule in the imaginary-time domain
topic Plasma Physics
Optics
url https://arxiv.org/abs/2305.15305