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Main Authors: Ritu, Rajat, Singh, Manpreet, Gupta, Rajesh Kumar, Gautam, Sandeep
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.00987
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author Ritu
Rajat
Singh, Manpreet
Gupta, Rajesh Kumar
Gautam, Sandeep
author_facet Ritu
Rajat
Singh, Manpreet
Gupta, Rajesh Kumar
Gautam, Sandeep
contents We study density and spin excitations of one-dimensional self-bound Bose-Bose droplets within Bogoliubov theory, and show that spin excitations come alive, especially as the interspecies coupling is made less attractive. We argue that spin excitations are particularly relevant in the one-dimensional droplet regime, where droplets are realized within the mean-field stability regime, as has been confirmed by the Quantum Monte Carlo simulations. As the interspecies coupling strength increases within the mean-field stability regime, spin modes ultimately fall below the particle-emission threshold, thus becoming observable in the droplet spectrum. We analyze the Bogoliubov model for both pseudospinor and population-imbalanced scalar mixtures, encompassing both the density and spin sectors, and corroborate our findings through variational analysis of density and spin breathing modes, as well as real-time dynamics. Additionally, we compare our results with Petrov's "original" theory, which considers the Lee-Huang-Yang (LHY) correction at the attractive edge of the mean-field stability regime and a beyond-LHY description of Bose-Bose mixtures.
format Preprint
id arxiv_https___arxiv_org_abs_2603_00987
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Spin and density excitations of one-dimensional self-bound Bose-Bose droplets
Ritu
Rajat
Singh, Manpreet
Gupta, Rajesh Kumar
Gautam, Sandeep
Quantum Gases
We study density and spin excitations of one-dimensional self-bound Bose-Bose droplets within Bogoliubov theory, and show that spin excitations come alive, especially as the interspecies coupling is made less attractive. We argue that spin excitations are particularly relevant in the one-dimensional droplet regime, where droplets are realized within the mean-field stability regime, as has been confirmed by the Quantum Monte Carlo simulations. As the interspecies coupling strength increases within the mean-field stability regime, spin modes ultimately fall below the particle-emission threshold, thus becoming observable in the droplet spectrum. We analyze the Bogoliubov model for both pseudospinor and population-imbalanced scalar mixtures, encompassing both the density and spin sectors, and corroborate our findings through variational analysis of density and spin breathing modes, as well as real-time dynamics. Additionally, we compare our results with Petrov's "original" theory, which considers the Lee-Huang-Yang (LHY) correction at the attractive edge of the mean-field stability regime and a beyond-LHY description of Bose-Bose mixtures.
title Spin and density excitations of one-dimensional self-bound Bose-Bose droplets
topic Quantum Gases
url https://arxiv.org/abs/2603.00987