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Multicomponent strongly attractive Fermi gas: A color superconductor in a one-dimensional harmonic trap

2008; American Physical Society; Volume: 77; Issue: 1 Linguagem: Inglês

10.1103/physreva.77.013622

1538-4446

Xia-Ji Liu, Hui Hu, P. D. Drummond,

Atomic and Subatomic Physics Research

Recent advances in ultracold atomic Fermi gases make it possible to achieve a fermionic superfluid with multiple spin components. In this context, any mean-field description is expected to fail, owing to the presence of tightly bound clusters or molecules that consist of more than two particles. Here we present a detailed study of a strongly interacting multicomponent Fermi gas in a highly elongated or quasi-one-dimensional harmonic trap, which could be readily obtained in experiment. By using the exact Bethe ansatz solution and a local density approximation treatment of the harmonic trap, we investigate the equation of state of the multicomponent Fermi gas in both a homogeneous and trapped environment, as well as the density profiles and low-energy collective modes. The binding energy of multicomponent bound clusters is also given. We show that there is a peak in the collective mode frequency at the critical density for a deconfining transition to a many-body state that is analogous to the quark color superconductor state expected in neutron stars.