Shear viscosity of a universal Fermi gas near the superfluid phase transition
arXiv:1410.4835 · doi:10.1103/PhysRevLett.115.020401
Abstract
We precisely measure the shear viscosity for a resonantly interacting Fermi gas as a function of temperature, from nearly the ground state through the superfluid phase transition at a critical temperature $T_c$. Using an iterative method to invert the data, we extract the {\it local} shear viscosity coefficient $α_S(θ)$ versus reduced temperature $θ$, revealing previously hidden features. We find that $α_S$ begins to decrease rapidly with decreasing $θ$ well above $T_c$, suggesting that preformed pairs play an important role. Further, we observe that the derivative $α_S'(θ)$ has a maximum at $T_c$. We compare the local data to several microscopic theories. Finally, we determine the local ratio of the shear viscosity to the entropy density.
9 pages, 10 figures