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Hauptverfasser: Wu, Xi, Zhang, Xiang, Li, Fuxiang
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2603.03854
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author Wu, Xi
Zhang, Xiang
Li, Fuxiang
author_facet Wu, Xi
Zhang, Xiang
Li, Fuxiang
contents We study fractional topological numbers in open quantum systems described by the Gorin--Kossakowski--Sudarsha--Lindblad master equation. Under symmetry conditions ensuring quantization, we show that single-valued physical states in momentum space give rise to integer winding numbers that remain integer during time evolution. Fractional values arise when this condition is effectively relaxed, such that the topology is evaluated over a restricted sector or exhibits an effective multi-branch structure. In these cases, the winding number is not quantized over the fundamental Brillouin zone and can depend continuously on system parameters, with discontinuities at purity-gap closings. However, when extended over multiple momentum periods, the winding recovers integer quantization. These effects are illustrated in a Su--Schrieffer--Heeger chain with gain and loss and can be probed in long-range hopping photonic lattices with fractional fillings via Bloch state tomography. Our results provide a unified framework for understanding fractional topology in open quantum systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_03854
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Fractional topology and multi-period re-quantization in open quantum systems
Wu, Xi
Zhang, Xiang
Li, Fuxiang
Quantum Physics
Mesoscale and Nanoscale Physics
We study fractional topological numbers in open quantum systems described by the Gorin--Kossakowski--Sudarsha--Lindblad master equation. Under symmetry conditions ensuring quantization, we show that single-valued physical states in momentum space give rise to integer winding numbers that remain integer during time evolution. Fractional values arise when this condition is effectively relaxed, such that the topology is evaluated over a restricted sector or exhibits an effective multi-branch structure. In these cases, the winding number is not quantized over the fundamental Brillouin zone and can depend continuously on system parameters, with discontinuities at purity-gap closings. However, when extended over multiple momentum periods, the winding recovers integer quantization. These effects are illustrated in a Su--Schrieffer--Heeger chain with gain and loss and can be probed in long-range hopping photonic lattices with fractional fillings via Bloch state tomography. Our results provide a unified framework for understanding fractional topology in open quantum systems.
title Fractional topology and multi-period re-quantization in open quantum systems
topic Quantum Physics
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2603.03854