Observation of conformal symmetry breaking and scale invariance in expanding Fermi gases

Abstract

We precisely test scale invariance and local thermal equilibrium in the hydrodynamic expansion of a Fermi gas of atoms as a function of interaction strength. After release from an anisotropic optical trap, we observe that a resonantly interacting gas obeys scale-invariant hydrodynamics, where the mean square cloud size r2= x2+y2+z2 expands ballistically (like a noninteracting gas) and the energy-averaged bulk viscosity is consistent with zero, 0.005(0.016)\,\,n, with n the density. In contrast, the aspect ratios of the cloud exhibit anisotropic "elliptic" flow with an energy-dependent shear viscosity. Tuning away from resonance, we observe conformal symmetry breaking, where r2 deviates from ballistic flow.