Swapping Floquet time crystal
Abstract
We propose a Floquet period-doubling time-crystal model based on a disordered interacting long-range spin chain where the periodic swapping of nearby spin couples is applied. This protocol can be applied to systems with any local spin magnitude {and in principle also to systems with nonspin (fermionic or bosonic) local Hilbert space}. We explicitly consider the cases and , using analytical and numerical methods to show that the time-crystal behavior appears in a range of parameters. In particular, we study the persistence of period-doubling oscillations in time, the time-crystal properties of the Floquet spectrum (quasienergy -spectral pairing and long-range correlations of the Floquet states), and introduce a quantity (the local imbalance) to assess what initial states give rise to a period-doubling dynamics. We also consider the average level spacing ratio and find that the interval of parameters where the system does not thermalize and persistent period-doubling is possible corresponds to the one where the Floquet spectrum shows time-crystal properties.
Cite
@article{arxiv.2312.17070,
title = {Swapping Floquet time crystal},
author = {Roberto Gargiulo and Gianluca Passarelli and Procolo Lucignano and Angelo Russomanno},
journal= {arXiv preprint arXiv:2312.17070},
year = {2024}
}
Comments
19 pages, 18 figures