Saved in:
Bibliographic Details
Main Authors: Mercurio, Alberto, Macrì, Vincenzo, Ferrari, Filippo, Fioroni, Lorenzo, Savona, Vincenzo
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.13030
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866915859674431488
author Mercurio, Alberto
Macrì, Vincenzo
Ferrari, Filippo
Fioroni, Lorenzo
Savona, Vincenzo
author_facet Mercurio, Alberto
Macrì, Vincenzo
Ferrari, Filippo
Fioroni, Lorenzo
Savona, Vincenzo
contents Dissipative phase transitions (DPTs) are traditionally characterized through the spectral properties of a time-independent Liouvillian superoperator. However, this definition cannot be applied to time-periodic (Floquet) systems that cannot be exactly recast into equivalent time-independent problems. In this article, we develop a general framework to characterize DPTs in time-periodic open quantum systems by analyzing the spectrum of the Floquet propagator. We first study driven-dissipative Kerr resonators, known to display a DPT, showing that counter-rotating terms in the drive induce a shift in the critical point and a significant change in the time scales associated with the transition. We then investigate DPTs in the driven quantum Rabi model and in its time-independent approximated counterpart, the driven Jaynes-Cummings model. We find that the Rabi model exhibits distinct critical features as the ultrastrong coupling regime is approached. Moreover, our Floquet analysis unveils the disappearance of the DPT in the deep strong coupling regime of the quantum Rabi model due to light-matter decoupling. Our rigorous approach sets the stage for the study of dissipative criticality in a broad class of time-dependent open quantum systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_13030
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Floquet Dissipative Phase Transitions
Mercurio, Alberto
Macrì, Vincenzo
Ferrari, Filippo
Fioroni, Lorenzo
Savona, Vincenzo
Quantum Physics
Dissipative phase transitions (DPTs) are traditionally characterized through the spectral properties of a time-independent Liouvillian superoperator. However, this definition cannot be applied to time-periodic (Floquet) systems that cannot be exactly recast into equivalent time-independent problems. In this article, we develop a general framework to characterize DPTs in time-periodic open quantum systems by analyzing the spectrum of the Floquet propagator. We first study driven-dissipative Kerr resonators, known to display a DPT, showing that counter-rotating terms in the drive induce a shift in the critical point and a significant change in the time scales associated with the transition. We then investigate DPTs in the driven quantum Rabi model and in its time-independent approximated counterpart, the driven Jaynes-Cummings model. We find that the Rabi model exhibits distinct critical features as the ultrastrong coupling regime is approached. Moreover, our Floquet analysis unveils the disappearance of the DPT in the deep strong coupling regime of the quantum Rabi model due to light-matter decoupling. Our rigorous approach sets the stage for the study of dissipative criticality in a broad class of time-dependent open quantum systems.
title Floquet Dissipative Phase Transitions
topic Quantum Physics
url https://arxiv.org/abs/2603.13030