X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility

X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility

We develop a new theoretical approach that demonstrates the abilities of elastic X-ray scattering to yield thermodynamic, structural, and mixing properties of dense matter with multiple ion species. The novel decomposition of the electron structure factor in multi-component systems provides the basi...

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Päätekijät: Wuensch, K, Vorberger, J, Gregori, G, Gericke, DO
Aineistotyyppi: Journal article
Kieli:English
Julkaistu: 2011
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author Wuensch, K
Vorberger, J
Gregori, G
Gericke, DO
author_facet Wuensch, K
Vorberger, J
Gregori, G
Gericke, DO
author_sort Wuensch, K
collection OXFORD
description We develop a new theoretical approach that demonstrates the abilities of elastic X-ray scattering to yield thermodynamic, structural, and mixing properties of dense matter with multiple ion species. The novel decomposition of the electron structure factor in multi-component systems provides the basis to study dense mixtures as found in giant gas planets or during inertial confinement fusion. We show that the scattering signal differs significantly between single species, microscopic mixtures, and phase-separated fluids. Thus, these different phases can be distinguished experimentally via elastic X-ray scattering. © 2011 Europhysics Letters Association.
first_indexed 2024-03-06T21:08:37Z
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spelling oxford-uuid:3d5b7580-3fd6-494a-9c49-96ffd1e828802022-03-26T14:18:53ZX-ray scattering as a probe for warm dense mixtures and high-pressure miscibilityJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:3d5b7580-3fd6-494a-9c49-96ffd1e82880EnglishSymplectic Elements at Oxford2011Wuensch, KVorberger, JGregori, GGericke, DOWe develop a new theoretical approach that demonstrates the abilities of elastic X-ray scattering to yield thermodynamic, structural, and mixing properties of dense matter with multiple ion species. The novel decomposition of the electron structure factor in multi-component systems provides the basis to study dense mixtures as found in giant gas planets or during inertial confinement fusion. We show that the scattering signal differs significantly between single species, microscopic mixtures, and phase-separated fluids. Thus, these different phases can be distinguished experimentally via elastic X-ray scattering. © 2011 Europhysics Letters Association.
spellingShingle Wuensch, K
Vorberger, J
Gregori, G
Gericke, DO
X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title_full X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title_fullStr X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title_full_unstemmed X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title_short X-ray scattering as a probe for warm dense mixtures and high-pressure miscibility
title_sort x ray scattering as a probe for warm dense mixtures and high pressure miscibility
work_keys_str_mv AT wuenschk xrayscatteringasaprobeforwarmdensemixturesandhighpressuremiscibility
AT vorbergerj xrayscatteringasaprobeforwarmdensemixturesandhighpressuremiscibility
AT gregorig xrayscatteringasaprobeforwarmdensemixturesandhighpressuremiscibility
AT gerickedo xrayscatteringasaprobeforwarmdensemixturesandhighpressuremiscibility

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