Topologically ordered time crystals
Abstract
We define topological time crystals, a dynamical phase of periodically driven quantum many-body systems capturing the coexistence of intrinsic topological order with the spontaneous breaking of discrete time-translation symmetry. We show that many-body localization can stabilize this phase against generic perturbations and establish some of its key features and signatures, including a dynamical, time-crystal form of the perimeter law for topological order. We link topological and ordinary time crystals through three complementary perspectives: higher-form symmetries, quantum error-correcting codes, and a holographic correspondence. We also propose an experimental realization of a surface-code-based topological time crystal for the Google Sycamore processor.
Cite
@article{arxiv.2105.09694,
title = {Topologically ordered time crystals},
author = {Thorsten B. Wahl and Bo Han and Benjamin Béri},
journal= {arXiv preprint arXiv:2105.09694},
year = {2024}
}
Comments
10 pages, 5 figures