arXiv:2203.11255 Abstract | arXiv Analytics

arXiv:2203.11255 [math-ph]Abstract References Reviews Resources

Effective Dynamics of Interacting Fermions from Semiclassical Theory to the Random Phase Approximation

Published 2022-03-21Version 1

I review results concerning the derivation of effective equations for the dynamics of interacting Fermi gases in a high-density regime of mean-field type. Three levels of effective theories, increasing in precision, can be distinguished: the semiclassical theory given by the Vlasov equation, the mean-field theory given by the Hartree-Fock equation, and the description of the dominant effects of non-trivial entanglement by the random phase approximation. Particular attention is given to the discussion of admissible initial data, and I present an example of a realistic quantum quench that can be approximated by Hartree-Fock dynamics.

Comments: contribution to the proceedings of ICMP 2021

Categories: math-ph, cond-mat.quant-gas, math.MP

Subjects: 81V70, 82B10, 81Q10, 35P05

Keywords: random phase approximation, semiclassical theory, interacting fermions, effective dynamics, realistic quantum quench

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