Information scrambling of the dilute Bose gas at low temperature

Abstract

We calculate the quantum Lyapunov exponent λL and butterfly velocity vB in the dilute Bose gas at temperature T deep in the Bose-Einstein condensation phase. The generalized Boltzmann equation approach is used for calculating out-of-time ordered correlators, from which λL and vB are extracted. At very low temperature where elementary excitations are phonon-like, we find λL T5 and vB c, the sound velocity. At relatively high temperature, we have λL T and vB c(T/T*)0.23. We find λL is always comparable to the damping rate of a quasiparticle, whose energy depends suitably on T. The chaos diffusion constant DL=vB2/λL, on the other hand, differs from the energy diffusion constant DE. We find DE DL at very low temperature and DE DL otherwise.