Litcius/Paper detail

Emergent quantum correlations and collective behavior in noninteracting quantum systems subject to stochastic resetting

Matteo Magoni, Federico Carollo, Gabriele Perfetto, Igor Lesanovsky

2022Physical review. A/Physical review, A27 citationsDOIOpen Access PDF

Abstract

We investigate the dynamics of a noninteracting spin system, undergoing coherent Rabi oscillations, in the presence of stochastic resetting. We show that resetting generally induces long-range quantum and classical correlations both in the emergent dissipative dynamics and in the nonequilibrium stationary state. Moreover, for the case of conditional reset protocols---where the system is reinitialized to a state dependent on the outcome of a preceding measurement---we show that in the thermodynamic limit, the spin system can feature collective behavior which results in a phenomenology reminiscent of that occurring in nonequilibrium phase transitions. The discussed reset protocols can be implemented on quantum simulators and quantum devices that permit fast measurement and readout of macroscopic observables, such as the magnetization. Our approach does not require the control of coherent interactions and may therefore highlight a route towards a simple and robust creation of quantum correlations and collective nonequilibrium states, with potential applications in quantum enhanced metrology and sensing.

Topics & Concepts

PhysicsNon-equilibrium thermodynamicsQuantumDissipative systemStatistical physicsObservableQuantum mechanicsQuantum dynamicsMacroscopic quantum phenomenaOpen quantum systemQuantum systemQuantum metrologyQuantum discordDiffusion and Search Dynamicsstochastic dynamics and bifurcationRandom lasers and scattering media