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Routes to chaos in the balanced two-photon Dicke model with qubit dissipation

Jiahui Li, Stefano Chesi

2024Physical review. A/Physical review, A13 citationsDOI

Abstract

We study the semiclassical limit of the two-photon Dicke model with both cavity decay and qubit dissipation, and extend a recent analysis of its stationary points [Garbe et al., Sci. Rep. 10, 13408 (2020)], where a large unstable region was found. By considering the explicit dynamical evolution, we show that the unstable region actually hosts a rich nonlinear behavior. At variance with other types of Dicke models (without qubit dissipation or with one-photon interactions), the occurrence of chaos does not rely on a large counterrotating interaction. Furthermore, new routes to chaos appear in addition to period-doubling bifurcations, i.e., intermittent chaos and quasi-periodic oscillations. The transition mechanisms under these three distinct routes are investigated in detail through the system's long-time evolution, the optical field power spectrum, Lyapunov exponents, and bifurcation diagrams. Additionally, we provide a comprehensive phase diagram detailing the existence of stable fixed points, limit cycles, and the aforementioned chaos-related dynamics.

Topics & Concepts

Semiclassical physicsPhysicsDissipationQubitLyapunov exponentJaynes–Cummings modelStatistical physicsHopf bifurcationLimit (mathematics)PhotonPeriod-doubling bifurcationQuantum chaosNonlinear systemLimit cycleBifurcationQuantum mechanicsQuantumMathematicsMathematical analysisQuantum dynamicsQuantum Information and CryptographySpectroscopy and Quantum Chemical StudiesNeural Networks and Reservoir Computing
Routes to chaos in the balanced two-photon Dicke model with qubit dissipation | Litcius