Topological origin of non-Hermitian skin effect in higher dimensions and uniform spectra

• URL: http://arxiv.org/abs/2306.12022v3
• Date: Sat, 3 Aug 2024 08:50:34 GMT
• Title: Topological origin of non-Hermitian skin effect in higher dimensions and uniform spectra
• Authors: Haiping Hu,
• Abstract summary: The non-Hermitian skin effect is characterized by the aggregation of eigenstates near system boundaries in non-Hermitian systems. This work adopts a point-gap perspective and unveils that non-Hermitian skin effect in all spatial dimensions originates from point gaps.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: The non-Hermitian skin effect is an iconic phenomenon characterized by the aggregation of eigenstates near the system boundaries in non-Hermitian systems. While extensively studied in one dimension, understanding the skin effect and extending the non-Bloch band theory to higher dimensions encounters a formidable challenge, primarily due to infinite lattice geometries or open boundary conditions. This work adopts a point-gap perspective and unveils that non-Hermitian skin effect in all spatial dimensions originates from point gaps. We introduce the concept of uniform spectra and reveal that regardless of lattice geometry, their energy spectra are universally given by the uniform spectra, even though their manifestations of skin modes may differ. Building on the uniform spectra, we demonstrate how to account for the skin effect with generic lattice cuts and establish the connections of skin modes across different geometric shapes via momentum-basis transformations. Our findings highlight the pivotal roles point gaps play, offering a unified understanding of the topological origin of non-Hermitian skin effect in all dimensions.

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