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W2898082956 abstract "Emergence of exceptional points in two dimensions is one of the remarkable phenomena in non-Hermitian systems. We here elucidate the impacts of symmetry on the non-Hermitian physics. Specifically, we analyze chiral symmetric correlated systems in equilibrium where the non-Hermitian phenomena are induced by the finite lifetime of quasiparticles. Intriguingly, our analysis reveals that the combination of symmetry and non-Hermiticity results in topological degeneracies of energy bands which we call symmetry-protected exceptional rings (SPERs). We observe the emergence of SPERs by analyzing a non-Hermitian Dirac Hamiltonian. Furthermore, by employing the dynamical mean-field theory, we demonstrate the emergence of SPERs in a correlated honeycomb lattice model whose single-particle spectrum is described by a non-Hermitian Dirac Hamiltonian. We uncover that the SPERs survive even beyond the non-Hermitian Dirac Hamiltonian, which is related to a zeroth Chern number. The argument of symmetry protection also holds for three dimensions, elucidating the presence of a symmetry-protected exceptional torus." @default.
W2898082956 created "2018-10-26" @default.
W2898082956 creator A5047128147 @default.
W2898082956 creator A5052776897 @default.
W2898082956 creator A5056057994 @default.
W2898082956 creator A5068361908 @default.
W2898082956 date "2019-03-05" @default.
W2898082956 modified "2023-10-13" @default.
W2898082956 title "Symmetry-protected exceptional rings in two-dimensional correlated systems with chiral symmetry" @default.
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W2898082956 doi "https://doi.org/10.1103/physrevb.99.121101" @default.
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