Low-frequency conductivity in many-body localized systems

We argue that the ac conductivity sigma(omega) in the many-body localized phase is a power law of frequency omega at low frequency: specifically, sigma(omega) similar to omega(alpha) with the exponent alpha approaching 1 at the phase transition to the thermal phase, and asymptoting to 2 deep in the localized phase. We identify two separate mechanisms giving rise to this power law: deep in the localized phase, the conductivity is dominated by rare resonant pairs of configurations; close to the transition, the dominant contributions are rare regions that are locally critical or in the thermal phase. We present numerical evidence supporting these claims, and discuss how these power laws can also be seen through polarization-decay measurements in ultracold atomic systems.