Related papers: Transport coefficients of a low-temperature normal Fermi gas with contact interactions: an exact perturbative expansion

Transport coefficients of a low-temperature normal Fermi gas with contact interactions: an exact perturbative expansion

URL: http://arxiv.org/abs/2502.03423v1
Date: Wed, 05 Feb 2025 18:11:52 GMT
Title: Transport coefficients of a low-temperature normal Fermi gas with contact interactions: an exact perturbative expansion
Authors: Pierre-Louis Taillat, Hadrien Kurkjian,
Abstract summary: We compute the shear viscosity, thermal conductivity and spin diffusivity of a Fermi gas with short-range interactions. We extend the Landau-Salpeter equation to compute the collision amplitude beyond the forward-scattering limit.
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Abstract: We compute the shear viscosity, thermal conductivity and spin diffusivity of a Fermi gas with short-range interactions in the Fermi liquid regime of the normal phase, that is at temperatures $T$ much lower than the Fermi temperature $T_{\rm F}$ and much larger than the superfluid critical temperature $T_c$. Given recent advances in the precision of cold atom experiments, we provide exact results up to second-order in the interaction strength. We extend the Landau-Salpeter equation to compute the collision amplitude beyond the forward-scattering limit, covering all collisions on the Fermi surface. We treat the collision kernel exactly, leading to significant corrections beyond relaxation time or variational approximations. The transport coefficients, as functions of the $s$-wave scattering length $a$ and Fermi wavenumber $k_{\rm F}$, follow $(1+\gamma k_{\rm F}a)/a^2$ up to corrections of order $O(a^0)$, with a positive coefficient $\gamma$ for the viscosity and negative one for the thermal conductivity and spin diffusivity. The inclusion of the correction linear in $k_{\rm F}a$ greatly improves the agreement with the recent measurement of the viscosity by the Yale group.

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