Apparent low-energy scale invariance in two-dimensional Fermi gases

Abstract

Recent experiments on a \2d Fermi gas find an undamped breathing mode at twice the trap frequency over a wide range of parameters. To understand this seemingly scale-invariant behavior in a system with a scale, we derive two exact results valid across the entire BCS-BEC crossover at all temperatures. First, we relate the shift of the mode frequency from its scale-invariant value to γd (1+2/d)P-(∂ P/∂)s in d dimensions. Next, we relate γd to dissipation via a new low-energy bulk viscosity sum rule. We argue that \2d is special, with its logarithmic dependence of the interaction on density, and thus γ2 is small in both the BCS and BEC regimes, even though P - 2/d, sensitive to the dimer binding energy that breaks scale invariance, is not.