Litcius/Paper detail

Entanglement phase transitions in non-Hermitian quasicrystals

Longwen Zhou

2024Physical review. B./Physical review. B31 citationsDOI

Abstract

The scaling law of entanglement entropy could undergo qualitative changes during the nonunitary evolution of a quantum many-body system. In this work, we uncover such entanglement phase transitions for free fermions in one-dimensional non-Hermitian quasicrystals (NHQCs). We identify two types of entanglement transitions with different scaling laws and critical behaviors due to the interplay between non-Hermitian effects and quasiperiodic potentials. The first type represents a typical volume-law to area-law transition, which happens together with a PT-symmetry breaking and a localization transition. The second type features an abnormal log-law to area-law transition, which is mediated by a critical phase with a volume-law scaling in the steady-state entanglement entropy. These entangling phases and transitions are demonstrated in two representative models of noninteracting NHQCs. Our results thus advance the study of entanglement transitions in non-Hermitian disordered systems and further disclose the rich entanglement patterns in NHQCs.

Topics & Concepts

Quantum entanglementQuasiperiodic functionPhysicsScalingQuantum phase transitionEntropy (arrow of time)Phase transitionQuantum mechanicsMultipartite entanglementQuasicrystalStatistical physicsSquashed entanglementTheoretical physicsQuantumCondensed matter physicsMathematicsGeometryQuantum chaos and dynamical systemsQuantum Mechanics and Non-Hermitian PhysicsQuantum many-body systems