Classification of topological phases in one dimensional interacting non-Hermitian systems and emergent unitarity
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In this paper, the authors attempt to classify topological phases in 1D interacting non-Hermitian systems and show that the classification of these phases is exactly the same as their Hermitian counterparts.Abstract:
Topological phases in non-Hermitian systems have become fascinating subjects recently. In this paper, we attempt to classify topological phases in 1D interacting non-Hermitian systems. We begin with the non-Hermitian generalization of the Su-Schrieffer-Heeger (SSH) model and discuss its many-body topological Berry phase, which is well defined for all interacting quasi-Hermitian systems (non-Hermitian systems that have real energy spectrum). We then demonstrate that the classification of topological phases for quasi-Hermitian systems is exactly the same as their Hermitian counterparts. Finally, we construct the fixed point partition function for generic 1D interacting non-Hermitian local systems and find that the fixed point partition function still has a one-to-one correspondence to their Hermitian counterparts. Thus, we conclude that the classification of topological phases for generic 1D interacting non-Hermitian systems is still exactly the same as Hermitian systems.read more
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Entanglement, non-Hermiticity, and duality
TL;DR: In this paper, a duality was proposed to diagnose quantum entanglement of non-Hermitian non-interacting fermionic systems with a complete set of biorthonormal eigenvectors and an entirely real energy spectrum.
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Biorthogonal quantum criticality in non-Hermitian many-body systems
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Correlation effects on non-Hermitian point-gap topology in zero dimension: Reduction of topological classification
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Entanglement, non-hermiticity, and duality
TL;DR: In this article, a rigorous duality is established to diagnose entanglement structure of non-Hermitian systems, and the authors classify non-hermitian models into two types.
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