Hydrodynamic fluctuations and the minimum shear viscosity of the dilute Fermi gas at unitarity

Abstract

We study hydrodynamic fluctuations in a non-relativistic fluid. We show that in three dimensions fluctuations lead to a minimum in the shear viscosity to entropy density ratio η/s as a function of the temperature. The minimum provides a bound on η/s which is independent of the conjectured bound in string theory, η/s ≥ /(4π kB), where s is the entropy density. For the dilute Fermi gas at unitarity we find η/s 0.2. This bound is not universal -- it depends on thermodynamic properties of the unitary Fermi gas, and on empirical information about the range of validity of hydrodynamics. We also find that the viscous relaxation time of a hydrodynamic mode with frequency ω diverges as 1/ω, and that the shear viscosity in two dimensions diverges as (1/ ω).