Related papers: Topological Order in the Spectral Riemann Surfaces of Non-Hermitian Systems

Topological Order in the Spectral Riemann Surfaces of Non-Hermitian Systems

URL: http://arxiv.org/abs/2410.18616v1
Date: Thu, 24 Oct 2024 10:16:47 GMT
Title: Topological Order in the Spectral Riemann Surfaces of Non-Hermitian Systems
Authors: Anton Montag, Alexander Felski, Flore K. Kunst,
Abstract summary: We show topologically ordered states in the complex-valued spectra of non-Hermitian systems. These arise when the distinctive exceptional points in the energy surfaces of such models are annihilated. We illustrate the characteristics of the topologically protected states in a non-Hermitian two-band model.
Score: 44.99833362998488
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Abstract: We show topologically ordered states in the complex-valued spectra of non-Hermitian systems. These arise when the distinctive exceptional points in the energy Riemann surfaces of such models are annihilated after threading them across the boundary of the Brillouin zone. This process results in a non-trivially closed branch cut that can be identified with a Fermi arc. Building on an analogy to Kitaev's toric code, these cut lines form non-contractible loops, which parallel the defect lines of the toric-code ground states. Their presence or absence establishes topological order for fully non-degenerate non-Hermitian systems. Excitations above these ground-state analogs are characterized by the occurrence of additional exceptional points. We illustrate the characteristics of the topologically protected states in a non-Hermitian two-band model and provide an outlook toward experimental realizations in metasurfaces and single-photon interferometry.

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