Abstract
Meera Parish (University College London)
wo-Dimensional Dipolar Fermi Gases
Ultracold atomic gases provide an exceptionally clean and controllable system in which to explore quantum many-body phenomena. Thus far, the focus has been on short-range interactions, since these well describe atom-atom scattering in the low energy limit. However, the recent creation of polar molecules with electric dipole moments has ignited interest in long-range dipolar interactions. In this talk, I will examine the phases of a two-dimensional gas of fermionic polar molecules, where the molecule dipole moments are all aligned by an external electric field. I will show that such a gas can spontaneously break rotational symmetry and form a density wave (or stripe phase) for sufficiently strong repulsive interactions. This provides a model example of a density wave that is purely driven by repulsion rather than, e.g., distortions of an underlying lattice.