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Autori principali: Liu, Yang, Zhao, Tongzhou, Xiang, T.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.11195
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author Liu, Yang
Zhao, Tongzhou
Xiang, T.
author_facet Liu, Yang
Zhao, Tongzhou
Xiang, T.
contents The quantum dynamics of the intrinsic metric profoundly influence the neutral excitations in the fractional quantum Hall system, as established by Haldane in 2011 \cite{Haldane2011}, and further evidenced by a recent two-photon experiment \cite{Liang2024}. Despite these advancements, a comprehensive understanding of the dynamic properties of these excitations, especially at long wavelengths, continues to elude interest. In this study, we employ tensor-network methods to investigate the neutral excitations of the Laughlin and Moore-Read states on an infinite cylinder. This investigation deepens our understanding of the excitation spectrum in regions where traditional methods do not work effectively. The spectral functions for both states reveal the presence of $S=-2$ geometric excitations. For the first time, we unveil the complex spectra of both neutral fermion and bosonic Girvin-MacDonald-Platzman modes within the excitation continuum by calculating the three-particle density response function for the Moore-Read state. Our findings support the hypothesis of emergent supersymmetry and highlight the potential for detecting neutral fermions in future experiments.
format Preprint
id arxiv_https___arxiv_org_abs_2406_11195
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Resolving Geometric Excitations of Fractional Quantum Hall States
Liu, Yang
Zhao, Tongzhou
Xiang, T.
Strongly Correlated Electrons
The quantum dynamics of the intrinsic metric profoundly influence the neutral excitations in the fractional quantum Hall system, as established by Haldane in 2011 \cite{Haldane2011}, and further evidenced by a recent two-photon experiment \cite{Liang2024}. Despite these advancements, a comprehensive understanding of the dynamic properties of these excitations, especially at long wavelengths, continues to elude interest. In this study, we employ tensor-network methods to investigate the neutral excitations of the Laughlin and Moore-Read states on an infinite cylinder. This investigation deepens our understanding of the excitation spectrum in regions where traditional methods do not work effectively. The spectral functions for both states reveal the presence of $S=-2$ geometric excitations. For the first time, we unveil the complex spectra of both neutral fermion and bosonic Girvin-MacDonald-Platzman modes within the excitation continuum by calculating the three-particle density response function for the Moore-Read state. Our findings support the hypothesis of emergent supersymmetry and highlight the potential for detecting neutral fermions in future experiments.
title Resolving Geometric Excitations of Fractional Quantum Hall States
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2406.11195