Litcius/Paper detail

Unusual wave-packet spreading and entanglement dynamics in non-Hermitian disordered many-body systems

Takahiro Orito, Ken‐Ichiro Imura

2022Physical review. B./Physical review. B46 citationsDOIOpen Access PDF

Abstract

Non-Hermiticity and dephasing, collaborating in an unusual wave-packet dynamics, realize unconventional entanglement evolution in a disordered, interacting, and asymmetric (nonreciprocal) quantum medium. Taking the Hatano-Nelson model as a concrete example, we first consider how wave packet spreads in a non-Hermitian disordered system for demonstrating that it is very different from the Hermitian case. Interestingly, a cascadelike wave-packet spreading as in the Hermitian case is suppressed in the clean limit and at weak disorder, while it revives in the vicinity of the localization-delocalization transition. Based on this observation, we then analyze how the entanglement entropy of the system evolves in the interacting non-Hermitian model, revealing its nonmonotonic evolution in time. We clarify the different roles of dephasing in the time evolution of entanglement entropy in Hermitian and non-Hermitian systems, and show that the many-body dynamics is governed by a principle different from the Hermitian case. The size dependence of the results suggests with the increase of disorder, an unusual area-volume--area-law crossover of the maximal entanglement entropy. To analyze the effects of disorder on a firm basis, using the Hermitian limit as a benchmark, we employ a quasiperiodic disorder (Aubry-Andr\'e model) in the analyses.

Topics & Concepts

Quantum entanglementHermitian matrixWave packetNetwork packetPhysicsDynamics (music)Rogue waveStatistical physicsClassical mechanicsQuantum mechanicsComputer scienceComputer securityNonlinear systemQuantumAcousticsQuantum many-body systemsQuantum, superfluid, helium dynamicsQuantum chaos and dynamical systems