Litcius/Paper detail

Quantum vs classical dynamics in a spin-boson system: manifestations of spectral correlations and scarring

D Villaseñor, S Pilatowsky-Cameo, M A Bastarrachea-Magnani, S Lerma-Hernández, L F Santos, J G Hirsch

2020New Journal of Physics29 citationsDOIOpen Access PDF

Abstract

Abstract We compare the entire classical and quantum evolutions of the Dicke model in its regular and chaotic domains. This is a paradigmatic interacting spin-boson model of great experimental interest. By studying the classical and quantum survival probabilities of initial coherent states, we identify features of the long-time dynamics that are purely quantum and discuss their impact on the equilibration times. We show that the ratio between the quantum and classical asymptotic values of the survival probability serves as a metric to determine the proximity to a separatrix in the regular regime and to distinguish between two manifestations of quantum chaos: scarring and ergodicity. In the case of maximal quantum ergodicity, our results are analytical and show that quantum equilibration takes longer than classical equilibration.

Topics & Concepts

PhysicsQuantumQuantum chaosChaoticQuantum dynamicsQuantum discordStatistical physicsQuantum mechanicsMetric (unit)Dynamics (music)Quantum dissipationQuantum processClassical limitClassical mechanicsQuantum stateMethod of quantum characteristicsQuantum systemQuantum operationOpen quantum systemQuantum algorithmQuantum probabilityTime evolutionChaotic systemsTheoretical physicsQuantum chaos and dynamical systemsQuantum many-body systemsSpectroscopy and Quantum Chemical Studies