Towards a quantum fluid theory of correlated many-fermion systems from first principles

Z. A. Moldabekov, T. Dornheim, G. Gregori, F. Graziani, M. Bonitz, A. Cangi

doi:10.21468/SciPostPhys.12.2.062

SciPost Physics (Feb 2022)

Towards a quantum fluid theory of correlated many-fermion systems from first principles

Z. A. Moldabekov, T. Dornheim, G. Gregori, F. Graziani, M. Bonitz, A. Cangi

Affiliations

Z. A. Moldabekov, T. Dornheim, G. Gregori, F. Graziani, M. Bonitz, A. Cangi

DOI: https://doi.org/10.21468/SciPostPhys.12.2.062
Journal volume & issue: Vol. 12, no. 2
p. 062

Abstract

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Correlated many-fermion systems emerge in a broad range of phenomena in warm dense matter, plasmonics, and ultracold atoms. Quantum hydrodynamics (QHD) complements first-principles methods for many-fermion systems at larger scales. We illustrate the failure of the standard Bohm potential central to QHD for strong perturbations when the density perturbation is larger than about $10^{-3}$ of the mean density. We then extend QHD to this regime via the \emph{many-fermion Bohm potential} from first-principles. This may lead to more accurate QHD simulations beyond their common application domain in the presence of strong perturbations at scales unattainable with first-principles methods.

Published in SciPost Physics

ISSN: 2542-4653 (Online)
Publisher: SciPost
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: https://scipost.org/SciPostPhys

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