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Hauptverfasser: Ju, Chia-Yi, Chen, Szu-Ming
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2412.06548
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author Ju, Chia-Yi
Chen, Szu-Ming
author_facet Ju, Chia-Yi
Chen, Szu-Ming
contents Studies have shown that quantum states reside in a Hilbert space bundle. When a quantum system depends on continuous external parameters, these parameters define additional dimensions in the base space of the bundle. While much of the existing literature focuses on eigenstate subbundles, where geometric properties like Berry curvature arise, this work considers the entire Hilbert space bundle. Although the Hilbert space bundle has been found to be locally flat, suggesting that the system's geometry may appear trivial, we revisit this assumption. Specifically, we examine how an arbitrary quantum state evolves when transported along closed parameter loops, a phenomenon characterized by holonomy. Our results demonstrate that nontrivial holonomy can emerge in the presence of exceptional points. Consequently, the topology of the full Hilbert space bundle is nontrivial, with exceptional points acting as topological defects.
format Preprint
id arxiv_https___arxiv_org_abs_2412_06548
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Evidence for Exceptional Points as Topological Defects
Ju, Chia-Yi
Chen, Szu-Ming
Quantum Physics
Studies have shown that quantum states reside in a Hilbert space bundle. When a quantum system depends on continuous external parameters, these parameters define additional dimensions in the base space of the bundle. While much of the existing literature focuses on eigenstate subbundles, where geometric properties like Berry curvature arise, this work considers the entire Hilbert space bundle. Although the Hilbert space bundle has been found to be locally flat, suggesting that the system's geometry may appear trivial, we revisit this assumption. Specifically, we examine how an arbitrary quantum state evolves when transported along closed parameter loops, a phenomenon characterized by holonomy. Our results demonstrate that nontrivial holonomy can emerge in the presence of exceptional points. Consequently, the topology of the full Hilbert space bundle is nontrivial, with exceptional points acting as topological defects.
title Evidence for Exceptional Points as Topological Defects
topic Quantum Physics
url https://arxiv.org/abs/2412.06548