Noise-induced subdiffusion in strongly localized quantum systems
Abstract
We consider the dynamics of strongly localized systems subject to dephasing noise with arbitrary correlation time. Although noise inevitably induces delocalization, transport in the noise-induced delocalized phase is subdiffusive in a parametrically large intermediate-time window. We argue for this intermediate-time subdiffusive regime both analytically and using numerical simulations on single-particle localized systems. Furthermore, we show that normal diffusion is restored in the long-time limit, through processes analogous to variable-range hopping. With numerical simulations based on Lanczos exact diagonalization, we demonstrate that our qualitative conclusions are also valid for interacting systems in the many-body localized phase.
Cite
@article{arxiv.1609.04818,
title = {Noise-induced subdiffusion in strongly localized quantum systems},
author = {Sarang Gopalakrishnan and K. Ranjibul Islam and Michael Knap},
journal= {arXiv preprint arXiv:1609.04818},
year = {2017}
}
Comments
5 pages, 4 figures + Supplemental Material, v2: additional data on noise-induced dynamics in many-body localized systems