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Main Authors: Dueñas, Óscar, Rodríguez, Alberto
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.04373
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author Dueñas, Óscar
Rodríguez, Alberto
author_facet Dueñas, Óscar
Rodríguez, Alberto
contents We investigate the propagation of two-point density correlations in the one-dimensional Bose-Hubbard Hamiltonian in the thermodynamic limit in terms of the correlation transport distance (CTD), an experimentally measurable magnitude that characterizes the spatial spreading of correlations in time. We confirm that the integrable limits of the model exhibit CTD ballistic growth, while the onset of the chaotic phase leads to the emergence of a pronounced sub-ballistic regime, in agreement with previous results for finite systems. By a meticulous analysis of the spatio-temporal correlation profiles, we show that the correlation front nonetheless propagates ballistically for all interaction strengths, and that the chaos-induced slowdown of the CTD originates from the emergence of long-time distance-dependent correlation tails, together with an enhanced decay of the correlation front amplitude. Our results thus provide a detailed characterization of correlation transport that goes beyond a simple light-cone picture.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04373
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Dynamical Behaviour of Density Correlations Across the Chaotic Phase for Interacting Bosons
Dueñas, Óscar
Rodríguez, Alberto
Quantum Physics
Quantum Gases
We investigate the propagation of two-point density correlations in the one-dimensional Bose-Hubbard Hamiltonian in the thermodynamic limit in terms of the correlation transport distance (CTD), an experimentally measurable magnitude that characterizes the spatial spreading of correlations in time. We confirm that the integrable limits of the model exhibit CTD ballistic growth, while the onset of the chaotic phase leads to the emergence of a pronounced sub-ballistic regime, in agreement with previous results for finite systems. By a meticulous analysis of the spatio-temporal correlation profiles, we show that the correlation front nonetheless propagates ballistically for all interaction strengths, and that the chaos-induced slowdown of the CTD originates from the emergence of long-time distance-dependent correlation tails, together with an enhanced decay of the correlation front amplitude. Our results thus provide a detailed characterization of correlation transport that goes beyond a simple light-cone picture.
title Dynamical Behaviour of Density Correlations Across the Chaotic Phase for Interacting Bosons
topic Quantum Physics
Quantum Gases
url https://arxiv.org/abs/2603.04373