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Shear viscosity of strongly interacting fermionic quantum fluids

Nandan Pakhira and Ross H. McKenzie
Phys. Rev. B 92, 125103 – Published 1 September 2015

Abstract

Eighty years ago, Eyring proposed that the shear viscosity of a liquid η has a quantum limit ηn where n is the density of the fluid. Using holographic duality and the anti–de Sitter/conformal field theory correspondence in string theory, Kovtun, Son, and Starinets (KSS) conjectured a universal bound ηs4πkB for the ratio between the shear viscosity and the entropy density s. Using dynamical mean-field theory, we calculate the shear viscosity and entropy density for a fermionic fluid described by a single-band Hubbard model at half-filling. Our calculated shear viscosity as a function of temperature is compared with experimental data for liquid He3. At low temperature, the shear viscosity is found to be well above the quantum limit and is proportional to the characteristic Fermi liquid 1/T2 dependence, where T is the temperature. With increasing temperature and interaction strength U, there is significant deviation from the Fermi liquid form. Also, the shear viscosity violates the quantum limit near the crossover from coherent quasiparticle-based transport to incoherent transport (the bad metal regime). Finally, the ratio of the shear viscosity to the entropy density is found to be comparable to the KSS bound for parameters appropriate to liquid He3. However, this bound is found to be strongly violated in the bad metal regime for parameters appropriate to lattice electronic systems such as organic charge-transfer salts.

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  • Received 3 June 2015
  • Revised 17 August 2015

DOI:https://doi.org/10.1103/PhysRevB.92.125103

©2015 American Physical Society

Authors & Affiliations

Nandan Pakhira and Ross H. McKenzie*

  • School of Mathematics and Physics, The University of Queensland, Brisbane, QLD 4072, Australia

  • *r.mckenzie@uq.edu.au; condensedconcepts.blogspot.com

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Issue

Vol. 92, Iss. 12 — 15 September 2015

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