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Main Authors: Hui, Jun-Xiao, Hansson, T. H., Babaev, Egor
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.16222
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author Hui, Jun-Xiao
Hansson, T. H.
Babaev, Egor
author_facet Hui, Jun-Xiao
Hansson, T. H.
Babaev, Egor
contents A key property of topologically ordered systems, such as Quantum Hall states, is the existence of excitations obeying fractional quantum statistics - anyons. We develop a theory for multicomponent counterflow states where an ordinary Laughlin quasiparticle can split into fractional vortices carrying fractions of its charge and statistical angle. There are two phases, separated by a quantum phase transition, where in the first, although observable, the fractionalized charges are asymptotically confined. In the second phase, they are unconfined anyons and the topological order is different from that of the Laughlin state.
format Preprint
id arxiv_https___arxiv_org_abs_2603_16222
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Fractionalized anyons in counterflowing Quantum Hall Liquids
Hui, Jun-Xiao
Hansson, T. H.
Babaev, Egor
Strongly Correlated Electrons
A key property of topologically ordered systems, such as Quantum Hall states, is the existence of excitations obeying fractional quantum statistics - anyons. We develop a theory for multicomponent counterflow states where an ordinary Laughlin quasiparticle can split into fractional vortices carrying fractions of its charge and statistical angle. There are two phases, separated by a quantum phase transition, where in the first, although observable, the fractionalized charges are asymptotically confined. In the second phase, they are unconfined anyons and the topological order is different from that of the Laughlin state.
title Fractionalized anyons in counterflowing Quantum Hall Liquids
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2603.16222