Phase-induced vortex pinning in rotating supersolid dipolar systems

Abstract

We analyze the pinning of vortices for a stationary rotating dipolar supersolid along the low-density paths between droplets as a function of the rotation frequency. We restrict ourselves to the stationary configurations of vortices with the same symmetry as that of the array of droplets. Our approach exploits the fact that the wave function of each droplet acquires a linear phase on the coordinates, and hence the relative phases between neighboring droplets allows us to predict the position of the vortices. For a confined system, the estimate accurately reproduces the Gross-Pitaevskii results in the spatial regions where the neighboring droplets are well defined.