Cavity induced many-body localization
Abstract
In this manuscript, we explore the feasibility of achieving many-body localization in the context of cavity quantum electrodynamics at strong coupling. Working with a spinless electronic Hubbard chain sitting coupled to a single-mode cavity, we show that the global coupling between electrons and photons -- which generally would be expected to delocalize the fermionic excitations -- can instead favor the appearance of localization. This is supported by a novel high-frequency expansion that correctly accounts for electron-photon interaction at strong coupling, as well as numerical calculations in both single particle and many-bod regimes. We find evidence that many-body localization may survive strong quantum fluctuations of the photon number by exploring energy dependence, seeing signatures of localization down to photon numbers as small as .
Cite
@article{arxiv.2208.06898,
title = {Cavity induced many-body localization},
author = {Rong-Chun Ge and Saeed Rahmanian Koshkaki and Michael H. Kolodrubetz},
journal= {arXiv preprint arXiv:2208.06898},
year = {2023}
}
Comments
Updated version with more details provided