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Accurate temperature diagnostics for matter under extreme conditions

Tobias Dornheim, Maximilian Böhme, D. Kraus, T. Döppner, Thomas R. Preston, Zhandos A. Moldabekov, Jan Vorberger

2022Nature Communications78 citationsDOIOpen Access PDF

Abstract

The experimental investigation of matter under extreme densities and temperatures, as in astrophysical objects and nuclear fusion applications, constitutes one of the most active frontiers at the interface of material science, plasma physics, and engineering. The central obstacle is given by the rigorous interpretation of the experimental results, as even the diagnosis of basic parameters like the temperature T is rendered difficult at these extreme conditions. Here, we present a simple, approximation-free method to extract the temperature of arbitrarily complex materials in thermal equilibrium from X-ray Thomson scattering experiments, without the need for any simulations or an explicit deconvolution. Our paradigm can be readily implemented at modern facilities and corresponding experiments will have a profound impact on our understanding of warm dense matter and beyond, and open up a variety of appealing possibilities in the context of thermonuclear fusion, laboratory astrophysics, and related disciplines.

Topics & Concepts

Thermonuclear fusionContext (archaeology)DeconvolutionWarm dense matterPhysicsThermalThomson scatteringStatistical physicsPlasmaComputer scienceTheoretical physicsComputational physicsNuclear physicsThermodynamicsOpticsPaleontologyBiologyHigh-pressure geophysics and materialsAtomic and Molecular PhysicsHigh-Energy Particle Collisions Research
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