On the spin asymmetry of ground states in trapped two-component Fermi gases with repulsive interactions
arXiv:cond-mat/0702600 · doi:10.1088/0953-4075/40/13/010
Abstract
We examine the spin asymmetry of ground states for two-dimensional, harmonically trapped two-component gases of fermionic atoms at zero temperature with weakly repulsive short range interactions. Our main result is that, in contrast to the three-dimensional case, in two dimensions a non-trivial spin-asymmetric phase can only be caused by shell structure. A simple, qualitative description is given in terms of an approximate single particle model, comparing well to the standard results of Hartree-Fock or direct diagonalization methods.