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| Paper IPM / P / 8703 |
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| Abstract: | |||||
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We numerically study imbalanced two component Fermi gases with attractive interactions in highly elongated harmonic traps.
An accurate parametrization formula for the ground state energy is presented for a spin-polarized attractive Gaudin-Yang model.
Our studies are based on an accurate microscopic spin-density-functional theory through the
Kohn-Sham scheme which employs the one-dimensional homogeneous Gaudin-Yang model with Luther-Emery-liquid ground-state correlation as a
reference system.
A modified Thomas-Fermi approximation is examined incorporating the exchange-correlation interaction.
By studying the charge and spin density profiles of the
system based on these methods, we gain a quantitative understanding of the role of attractive
interactions and polarization on the formation of the two-shell structure,
with the coexisted Fulde-Ferrell-Larkin-Ovchinnikov-type phase in the center of the trap and either the BCS
superfluid phase or the normal phase at the edges of the trap.
Our results are in good agreement with the recent theoretical consequences.
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