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Absence of logarithmic and algebraic scaling entanglement phases due to the skin effect

Xu Feng, Shuo Liu, Shu Chen, Wenan Guo

2023Physical review. B./Physical review. B22 citationsDOI

Abstract

Measurement-induced phase transitions in the presence of competition between projective measurement and random unitary evolution have attracted increasing attention due to the rich phenomenology of entanglement structures. However, in open quantum systems with free fermions, a generalized measurement with conditional feedback can induce the skin effect and render the system short-range entangled without any entanglement transition, meaning the system always remains in the ``area law'' entanglement phase. In this work, we demonstrate that power-law long-range hopping does not alter the absence of entanglement transition brought on by the measurement-induced skin effect for systems with open boundary conditions. In addition, for finite-size systems, we discover an algebraic scaling $S(L,L/4)\ensuremath{\sim}{L}^{3/2\ensuremath{-}p}$ when the power-law exponent $p$ of long-range hopping is relatively small. For systems with periodic boundary conditions, we find that the measurement-induced skin effect disappears and observe entanglement phase transitions among ``algebraic law,'' ``logarithmic law,'' and ``area law'' phases.

Topics & Concepts

Quantum entanglementPhysicsScalingMultipartite entanglementPower lawQuantum mechanicsUnitary stateExponentLogarithmAlgebraic numberScaling lawQuantum phase transitionSquashed entanglementPhase transitionQuantumStatistical physicsLawMathematicsGeometryMathematical analysisStatisticsPolitical sciencePhilosophyLinguisticsQuantum many-body systemsQuantum Information and CryptographyCold Atom Physics and Bose-Einstein Condensates
Absence of logarithmic and algebraic scaling entanglement phases due to the skin effect | Litcius