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Prethermal Fragmentation in a Periodically Driven Fermionic Chain

Somsubhra Ghosh, I. Paul, K. Sengupta

2023Physical Review Letters23 citationsDOIOpen Access PDF

Abstract

We study a fermionic chain with nearest-neighbor hopping and density-density interactions, where the nearest-neighbor interaction term is driven periodically. We show that such a driven chain exhibits prethermal strong Hilbert space fragmentation (HSF) in the high drive amplitude regime at specific drive frequencies ω_{m}^{*}. This constitutes the first realization of HSF for out-of-equilibrium systems. We obtain analytic expressions of ω_{m}^{*} using a Floquet perturbation theory and provide exact numerical computation of entanglement entropy, equal-time correlation functions, and the density autocorrelation of fermions for finite chains. All of these quantities indicate clear signatures of strong HSF. We study the fate of the HSF as one tunes away from ω_{m}^{*} and discuss the extent of the prethermal regime as a function of the drive amplitude.

Topics & Concepts

Quantum entanglementPhysicsFloquet theoryFermionAutocorrelationAmplitudeHilbert spaceEntropy (arrow of time)Fragmentation (computing)k-nearest neighbors algorithmQuantum mechanicsStatistical physicsPerturbation theory (quantum mechanics)DephasingQuantumStatisticsMathematicsArtificial intelligenceNonlinear systemComputer scienceOperating systemQuantum many-body systemsQuantum and electron transport phenomenaCold Atom Physics and Bose-Einstein Condensates
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