English

Genuine Quantum effects in Dicke-type Models at large atom numbers

Quantum Physics 2025-11-18 v2 Quantum Gases

Abstract

We investigate the occurrence of genuine quantum effects and beyond mean-field physics in the balanced and unbalanced open Dicke model with a large, yet finite number of atoms NN. Such driven and dissipative quantum many-body systems have recently been realized in experiments involving ultracold gases inside optical cavities and are known to obey mean-field predictions in the thermodynamic limit NN\to\infty. Here we show quantum effects that survive for large but finite NN, by employing a novel open-system dynamics method that allows us to obtain numerically exact quantum dynamical results for atom numbers up to a mesoscopic N1000N\approx 1000. While we find that beyond-mean-field effects vanish quickly with increasing NN in the balanced Dicke model, we are able to identify parameter regimes in the unbalanced Dicke model that allow genuine quantum effects to persist even for mesoscopic NN. They manifest themselves in a strong squeezing of the steady state and a modification of the steady-state phase diagram that cannot be seen in a mean-field description. This is due to the fact that the steady-state limit tt\rightarrow \infty and thermodynamic limit NN\rightarrow \infty do not commute.

Keywords

Cite

@article{arxiv.2503.03396,
  title  = {Genuine Quantum effects in Dicke-type Models at large atom numbers},
  author = {Kai Müller and Walter T. Strunz},
  journal= {arXiv preprint arXiv:2503.03396},
  year   = {2025}
}
R2 v1 2026-06-28T22:07:39.675Z