Density wave patterns for fermionic dipolar molecules on a square optical lattice: Mean-field-theory analysis

Details Density wave patterns for fermionic dipolar molecules on a square optical lattice: Mean-field-theory analysis Density wave patterns for fermionic dipolar molecules on a square optical lattice: Mean-field-theory analysis

2011-02-03

arxiv.org/abs/1102.0778v1

Phys. Rev. A, 83, 043609 (2011)

Physics

Condensed Matter

Quantum Gases

8 pages, 7 figures

Scientific paper

10.1103/PhysRevA.83.043609

We model a system of ultracold fermionic dipolar molecules on a two-dimensional square lattice. Assuming that the molecules are in their nondegenerate hyperfine ground state, and that the dipole moment is polarized perpendicular to the plane (as in the recent experiments on 40K-87Rb molecules), we approximate these molecules as spinless fermions with long range repulsive dipolar interactions. We use mean field theory to obtain the restricted phase diagram as a function of the filling, the strength of interaction and the temperature. We find a number of ordered density wave phases in the system, as well as phase separation between these phases. A Monte Carlo analysis shows that the higher-period phases are usually suppressed in the exact solution.

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