%0 Journal Article
%T The fate of dynamical many-body localization in the presence of disorder
%A Analabha Roy
%A Arnab Das
%J Physics
%D 2014
%I arXiv
%R 10.1103/PhysRevB.91.121106
%X Dynamical localization is one of the most startling manifestations of quantum interference, where the evolution of a simple system is frozen out under a suitably tuned coherent periodic drive. Here, we show that, although any randomness in the interactions of a many body system kills dynamical localization eventually, spectacular remnants survive even when the disorder is strong. We consider a disordered quantum Ising chain where the transverse magnetization relaxes exponentially with time with a decay time-scale $\tau$ due to random longitudinal interactions between the spins. We show that, under external periodic drive, this relaxation slows down ($\tau$ shoots up) by orders of magnitude as the ratio of the drive frequency $\omega$ and amplitude $h_{0}$ tends to certain specific values (the freezing condition). If $\omega$ is increased while maintaining the ratio $h_0/\omega$ at a fixed freezing value, then $\tau$ diverges exponentially with $\omega.$ The results can be easily extended for a larger family of disordered fermionic and bosonic systems.
%U http://arxiv.org/abs/1405.3966v3