Quasi Many-Body Localization in Translation Invariant Systems

Norman Yao; Chris Laumann; J. Ignacio Cirac; Mikhail Lukin; Joel Moore

Quasi Many-Body Localization in Translation Invariant Systems

ORAL

Abstract

We examine localization phenomena associated with generic, high entropy, states of a translation invariant, one-dimensional spin ladder. At intermediate time scales, we find slow growth of entanglement entropy consistent with the known phenomenology of many-body localization in disordered, interacting systems. At longer times, however, anomalous diffusion sets in, leading to full spin polarization decay on a time-scale exponential in system size. We identify a single length scale which parametrically controls both the eventual spin transport times and the divergence of the susceptibility to spin glass ordering. We dub this pre-thermal dynamical behavior, quasi many-body localization.

March 5, 2015, 11:27 AM – March 5, 2015, 11:39 AM

Authors

Norman Yao
- University of California Berkeley
- University of California, Berkeley
Chris Laumann
- University of Washington
J. Ignacio Cirac
- Max Planck Institute for Quantum Optics
Mikhail Lukin
- Harvard University
Joel Moore
- University of California, Berkeley
- UC Berkeley and LBNL
- University of California Berkeley
- University of California, Berkeley and Lawrence Berkeley National Laboratory, Berkeley
- UC Berkeley