Related papers: Bulk-boundary correspondence in topological two-dimensional non-Hermitian systems: Toeplitz operators and singular values

Bulk-boundary correspondence in topological two-dimensional non-Hermitian systems: Toeplitz operators and singular values

URL: http://arxiv.org/abs/2602.13916v1
Date: Sat, 14 Feb 2026 23:13:03 GMT
Title: Bulk-boundary correspondence in topological two-dimensional non-Hermitian systems: Toeplitz operators and singular values
Authors: J. Sirker,
Abstract summary: We formulate the bulk-boundary correspondence for non-Hermitian quadratic lattice Hamiltonians in terms of Toeplitz operators and singular values.<n>We show that singular values, rather than eigenvalues, provide the only stable foundation for topological protection in non-Hermitian systems.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: In contrast to eigenvalue-based approaches, we formulate the bulk-boundary correspondence for two-dimensional non-Hermitian quadratic lattice Hamiltonians in terms of Toeplitz operators and singular values, which correctly capture the stability, localization, and scaling of edge and corner modes. We show that singular values, rather than eigenvalues, provide the only stable foundation for topological protection in non-Hermitian systems because they remain robust under translational-symmetry-breaking perturbations that destabilize the eigenvalue spectrum, rendering it unsuitable for topological classification. Building on Toeplitz operator theory, we establish general results for non-Hermitian Hamiltonians defined on half and quarter planes, relating the topological indices of the associated Toeplitz operators to the number of finite-size singular values that are separated from the bulk singular-value spectrum and vanish in the thermodynamic limit. This yields a precise bulk-boundary correspondence for edge and corner modes, including higher-order topological phases, without requiring crystalline symmetries. We illustrate our general results with detailed examples exhibiting topologically protected families of edge states, coexisting edge and corner modes, and phases with both gapped bulk and edges supporting only stable corner modes. The latter is exemplified by a non-Hermitian generalization of the Benalcazar-Bernevig-Hughes model.

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