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Shear viscosity of a universal Fermi gas near the superfluid phase transition

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.

preprint2014arXivOpen access
J. A. JosephE. ElliottJ. E. Thomas
cond-mat.quant-gas
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J. A. JosephE. ElliottJ. E. Thomas

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