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Finite-temperature dynamical quantum phase transition in a non-Hermitian system

Debashish Mondal, Tanay Nag

2023Physical review. B./Physical review. B39 citationsDOIOpen Access PDF

Abstract

We investigate the interplay between non-Hermiticity and finite temperature in the context of a mixed-state dynamical quantum phase transition (MSDQPT). We consider a $p$-wave superconductor model, encompassing complex hopping and non-Hermiticity, that can lead to gapless phases in addition to gapped phases, to examine the MSDQPT and winding number via the intraphase quench. We find that the MSDQPT is always present irrespective of the gap structure of the underlying phase; however, the profile of Fisher zeros changes between the above phases. Such occurrences of MSDQPT are in contrast to the zero-temperature case in which a DQPT does not take place for the gapped phase. Surprisingly, the half-integer jumps in winding number at zero temperature are washed away for finite temperature in the gapless phase. We study the evolution of the minimum time required by the system to experience MSDQPT with the inverse temperature such that gapped and gapless phases can be differentiated. Our study indicates that the minimum time shows monotonic (nonmonotonic) behavior for the gapped (gapless) phase.

Topics & Concepts

Gapless playbackPhysicsContext (archaeology)Monotonic functionPhase (matter)Condensed matter physicsQuantum critical pointQuantum phase transitionPhase transitionHermitian matrixQuantum mechanicsQuantumInverseWinding numberSuperconductivityMathematicsGeometryPaleontologyMathematical analysisBiologyQuantum Mechanics and Non-Hermitian PhysicsQuantum many-body systemsTopological Materials and Phenomena
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