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Fingerprint of chaos and quantum scars in kicked Dicke model: An out-of-time-order correlator study

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arxiv 2101.05155 v1 pith:CBNS5N7Y submitted 2021-01-13 cond-mat.stat-mech nlin.CDquant-ph

Fingerprint of chaos and quantum scars in kicked Dicke model: An out-of-time-order correlator study

classification cond-mat.stat-mech nlin.CDquant-ph
keywords chaosotocmodelquantumcorrelatordickedynamicsexponent
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate the onset of chaos in a periodically kicked Dicke model (KDM), using the out-of-time-order correlator (OTOC) as a diagnostic tool, in both the oscillator and the spin subspaces. In the large spin limit, the classical Hamiltonian map is constructed, which allows us to investigate the corresponding phase space dynamics and to compute the Lyapunov exponent. We show that the growth rate of the OTOC for the canonically conjugate coordinates of the oscillator is able to capture the Lyapunov exponent in the chaotic regime. The onset of chaos is further investigated using the saturation value of the OTOC, that can serve as an alternate indicator of chaos in a generic interacting quantum system. This is also supported by a system independent effective random matrix model. We further identify the quantum scars in KDM and detect their dynamical signature by using the OTOC dynamics. The relevance of the present study in the context of ongoing cold atom experiments is also discussed.

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