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Main Authors: Xia, Wei-qi, Zheng, Xiao-ting, Chen, Xiao-wei, Chen, Gui-hua
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.13059
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author Xia, Wei-qi
Zheng, Xiao-ting
Chen, Xiao-wei
Chen, Gui-hua
author_facet Xia, Wei-qi
Zheng, Xiao-ting
Chen, Xiao-wei
Chen, Gui-hua
contents Quantum droplets, stabilized by beyond-mean-field effects, represent a novel state of matter in quantum many-body systems. While previous studies have focused primarily on dipolar and contact-interacting systems, quadrupolar condensates remain relatively unexplored. In this work, we explore the formation, structural properties, and dynamical behaviors of quantum droplets in a two-component quadrupolar Bose-Einstein condensate confined to a quasi-two-dimensional geometry. Analytical results obtained via the Thomas-Fermi approximation predict flat-topped density profiles and linear scaling between effective area and particle number. These predictions are corroborated by numerical simulations, which also reveal the saturation of peak density and chemical potential at large norm. Furthermore, vortex quantum droplets exhibit anisotropic elliptical morphologies due to the directional nature of QQIs, with their aspect ratios significantly tunable by varying the particle number and quadrupolar interaction strength. Collision dynamics demonstrate rich behavior modulated by velocity and topology: ground-state droplets transition from inelastic merging to quasi-elastic scattering and quantum penetration, while vortex droplets exhibit phase-induced repulsion, fragmentation, and topologically protected tunneling. These findings offer a comprehensive understanding of how higher-order interactions and quantum fluctuations govern the formation and stability of quadrupolar droplets. This work lays a theoretical foundation for experimental realization and opens new directions for exploring anisotropic quantum fluids, topological excitations, and applications in quantum sensing and simulation.
format Preprint
id arxiv_https___arxiv_org_abs_2510_13059
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Static and dynamical properties of quadrupolar quantum droplets in quasi-2D condensates
Xia, Wei-qi
Zheng, Xiao-ting
Chen, Xiao-wei
Chen, Gui-hua
Quantum Gases
Pattern Formation and Solitons
Quantum droplets, stabilized by beyond-mean-field effects, represent a novel state of matter in quantum many-body systems. While previous studies have focused primarily on dipolar and contact-interacting systems, quadrupolar condensates remain relatively unexplored. In this work, we explore the formation, structural properties, and dynamical behaviors of quantum droplets in a two-component quadrupolar Bose-Einstein condensate confined to a quasi-two-dimensional geometry. Analytical results obtained via the Thomas-Fermi approximation predict flat-topped density profiles and linear scaling between effective area and particle number. These predictions are corroborated by numerical simulations, which also reveal the saturation of peak density and chemical potential at large norm. Furthermore, vortex quantum droplets exhibit anisotropic elliptical morphologies due to the directional nature of QQIs, with their aspect ratios significantly tunable by varying the particle number and quadrupolar interaction strength. Collision dynamics demonstrate rich behavior modulated by velocity and topology: ground-state droplets transition from inelastic merging to quasi-elastic scattering and quantum penetration, while vortex droplets exhibit phase-induced repulsion, fragmentation, and topologically protected tunneling. These findings offer a comprehensive understanding of how higher-order interactions and quantum fluctuations govern the formation and stability of quadrupolar droplets. This work lays a theoretical foundation for experimental realization and opens new directions for exploring anisotropic quantum fluids, topological excitations, and applications in quantum sensing and simulation.
title Static and dynamical properties of quadrupolar quantum droplets in quasi-2D condensates
topic Quantum Gases
Pattern Formation and Solitons
url https://arxiv.org/abs/2510.13059