Quantum Rabi Model with Two-Photon Relaxation
Abstract
We study a cavity-QED setup consisting of a two-level system coupled to a single cavity mode with two-photon relaxation. The system dynamics is modeled via a Lindblad master equation consisting of the Rabi Hamiltonian and a two-photon dissipator. We show that an even-photon relaxation preserves the symmetry of the Rabi model, and provide a framework to study the corresponding non-Hermitian dynamics in the number-parity basis. We discuss the role of different terms in the two-photon dissipator and show how one can extend existing results for the closed Rabi spectrum to the open case. Furthermore, we characterize the role of the symmetry in the excitation-relaxation dynamics of the system as a function of light-matter coupling. Importantly, we observe that initial states with even-odd parity manifest qualitatively distinct transient and steady state behaviors, contrary to the Hermitian dynamics that is only sensitive to whether the initial state is parity-invariant. Moreover, the parity-sensitive dynamical behavior is not a creature of ultrastrong coupling and is present even at weak coupling values.
Keywords
Cite
@article{arxiv.1808.10574,
title = {Quantum Rabi Model with Two-Photon Relaxation},
author = {Moein Malekakhlagh and Alejandro W. Rodriguez},
journal= {arXiv preprint arXiv:1808.10574},
year = {2019}
}
Comments
14 pages, 8 figures and 1 table