Realizing the Hayden-Preskill Protocol with Coupled Dicke Models
Abstract
Hayden and Preskill proposed a thought experiment that Bob can recover the information Alice throws into a black hole if he has a quantum computer entangled with the black hole, and Yoshida and Kitaev recently proposed a concrete decoding scheme. The parallel question is that after a small system is thermalized with a large system, how one can decode the initial state information with the help of two entangled many-body systems. Here we propose to realize this protocol in a physical system of two Dicke models, with two cavity fields prepared in a thermofield double state. We show that the Yoshida-Kitaev protocol allows us to read out the initial spin information after it is scrambled into the cavity. We show that the readout efficiency reaches a maximum when the model parameter is tuned to the regime where the system is the most chaotic, characterized by the shortest scrambling time in the out-of-time-ordered correlation function. Our proposal opens up the possibility of discussing this profound thought experiment in a realistic setting.
Cite
@article{arxiv.1909.12568,
title = {Realizing the Hayden-Preskill Protocol with Coupled Dicke Models},
author = {Yanting Cheng and Chang liu and Jinkang Guo and Yu Chen and Pengfei Zhang and Hui Zhai},
journal= {arXiv preprint arXiv:1909.12568},
year = {2020}
}
Comments
5 pages, 4 figures