Dynamically generated darkness in the Dicke model
Abstract
We study the dynamics of a driven Dicke model, where the collective spin is rotated with a constant velocity around a fixed axis. The time evolution of the mean photon number and of the atomic inversion is calculated using, on the one hand, a numerical technique for the quantum dynamics of a small number of two-level atoms, on the other hand, time-dependent mean-field theory for the limit of a large number of atoms. We observe a reduction of the mean photon number as compared to its equilibrium value. This dynamically generated darkness is particularly pronounced slightly above the transition to a superradiant phase. We attribute the effect to a slowing down of the motion in the classical limit of a large ensemble and to an interplay of dynamic and geometric phases in the quantum case.
Keywords
Cite
@article{arxiv.1310.1719,
title = {Dynamically generated darkness in the Dicke model},
author = {Michael Tomka and Dionys Baeriswyl and Vladimir Gritsev},
journal= {arXiv preprint arXiv:1310.1719},
year = {2013}
}
Comments
15 pages, 14 figures