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Autores principales: Wu, Jian-Feng, Huang, Yi, Zhang, Yu-Xiang
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.15752
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author Wu, Jian-Feng
Huang, Yi
Zhang, Yu-Xiang
author_facet Wu, Jian-Feng
Huang, Yi
Zhang, Yu-Xiang
contents In conventional lattice models, the dispersion relation $ω(k)$ is assumed to be a smooth function which is periodic over the first Brillouin Zone. However, in subwavelength atom arrays the dispersion of the light-mediated long-range interaction is singular at the light cone. This observation prompts us to ask what effect arises from such band singularity. Here we demonstrate that, due to the topology of smooth functions defined over the periodic Brillouin zone, smoothness implies the splitting of an initially localized excitation into counter-propagating wave packets. Consequently, unsplit spreading can occur only when $ω(k)$ develops singular features, precisely what long-range interactions enable. We identify unsplit spreading in 1D toy tight-bounding models and the realistic models of 1D and 2D subwavelength atomic arrays. Our work establishes unsplit spreading as an experimentally accessible, smoking-gun signature of singular band structure.
format Preprint
id arxiv_https___arxiv_org_abs_2601_15752
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Singular band Induced by Long-Range Interaction Enables Unsplit Spreading of Localized Excitations
Wu, Jian-Feng
Huang, Yi
Zhang, Yu-Xiang
Quantum Physics
In conventional lattice models, the dispersion relation $ω(k)$ is assumed to be a smooth function which is periodic over the first Brillouin Zone. However, in subwavelength atom arrays the dispersion of the light-mediated long-range interaction is singular at the light cone. This observation prompts us to ask what effect arises from such band singularity. Here we demonstrate that, due to the topology of smooth functions defined over the periodic Brillouin zone, smoothness implies the splitting of an initially localized excitation into counter-propagating wave packets. Consequently, unsplit spreading can occur only when $ω(k)$ develops singular features, precisely what long-range interactions enable. We identify unsplit spreading in 1D toy tight-bounding models and the realistic models of 1D and 2D subwavelength atomic arrays. Our work establishes unsplit spreading as an experimentally accessible, smoking-gun signature of singular band structure.
title Singular band Induced by Long-Range Interaction Enables Unsplit Spreading of Localized Excitations
topic Quantum Physics
url https://arxiv.org/abs/2601.15752