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Diagnosing non-Hermitian many-body localization and quantum chaos via singular value decomposition

Federico Roccati, Federico Balducci, Ruth Shir, Aurélia Chenu

2024Physical review. B./Physical review. B36 citationsDOIOpen Access PDF

Abstract

Strong local disorder in interacting quantum spin chains can turn delocalized eigenmodes into localized eigenstates, giving rise to many-body localized phases. This is accompanied by distinct spectral statistics: chaotic for the delocalized phase and integrable for the localized phase. In isolated systems, localization and chaos are defined through a web of relations among eigenvalues, eigenvectors, and real-time dynamics. These may change as the system is made open. We ask whether random dissipation (without random disorder) can induce chaotic or localized behavior in an otherwise integrable system. The dissipation is described using non-Hermitian Hamiltonians, which can effectively be obtained from Markovian dynamics conditioned on null measurement. In this non-Hermitian setting, we argue in favor of the use of the singular value decomposition. We complement the singular value statistics with different diagnostic tools, namely, the singular form factor and the inverse participation ratio and entanglement entropy of singular vectors. We thus identify a crossover of the singular values from chaotic to integrable spectral features and of the singular vectors from delocalization to localization. Our method is illustrated in an XXZ Hamiltonian with random local dissipation.

Topics & Concepts

Hermitian matrixSingular value decompositionDecompositionQuantumMathematicsValue (mathematics)Quantum chaosCHAOS (operating system)Pure mathematicsMathematical physicsPhysicsQuantum mechanicsStatisticsComputer scienceAlgorithmQuantum dynamicsChemistryOrganic chemistryComputer securityQuantum chaos and dynamical systemsQuantum many-body systemsQuantum Mechanics and Non-Hermitian Physics
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