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Autore principale: Ebrahimian, Neda
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.16150
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author Ebrahimian, Neda
author_facet Ebrahimian, Neda
contents Considering ultracold spin-imbalanced Fermi-Fermi mixtures with different spin up and down masses, the absorbed power, subject to an external perturbation with low frequency, has been calculated. The system is composed of spin-up quasiparticles and spin-down quasiholes. The average chemical potential and energy gap have also been numerically calculated via applying different fixed interaction strengths and masses, and then by solving coupled differential equations characterized by Hartree-Fock potential for the spin species, as well as that of the phase separation (PS), leading to imbalance chemical potential. The dependence of the imbalance and average chemical potential in PS regime, to the polarization of the normal component, mass ratios, and interaction strengths are analyzed. Examining density of states (DOS), and by applying the Fermi golden rule at finite temperatures, the absorbed power has accordingly been calculated as a function of temperature, interaction strength, and mass ratio. Finally, the behavior of absorbed power versus frequency has been investigated.
format Preprint
id arxiv_https___arxiv_org_abs_2510_16150
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Absorbed power in ultracold polarized Fermi mixtures at normal-superfluid separation phase: Mass-imbalanced effect
Ebrahimian, Neda
Quantum Gases
Considering ultracold spin-imbalanced Fermi-Fermi mixtures with different spin up and down masses, the absorbed power, subject to an external perturbation with low frequency, has been calculated. The system is composed of spin-up quasiparticles and spin-down quasiholes. The average chemical potential and energy gap have also been numerically calculated via applying different fixed interaction strengths and masses, and then by solving coupled differential equations characterized by Hartree-Fock potential for the spin species, as well as that of the phase separation (PS), leading to imbalance chemical potential. The dependence of the imbalance and average chemical potential in PS regime, to the polarization of the normal component, mass ratios, and interaction strengths are analyzed. Examining density of states (DOS), and by applying the Fermi golden rule at finite temperatures, the absorbed power has accordingly been calculated as a function of temperature, interaction strength, and mass ratio. Finally, the behavior of absorbed power versus frequency has been investigated.
title Absorbed power in ultracold polarized Fermi mixtures at normal-superfluid separation phase: Mass-imbalanced effect
topic Quantum Gases
url https://arxiv.org/abs/2510.16150