Topological vortices in planar S-TI-S Josephson junctions

We discuss the Josephson vortices in planar superconductor-topological insulator-superconductor (S-TI-S) junctions, where the TI section is narrow and long. We are motivated by recent experiments, especially by those in junctions of Corbino ring geometry, where non-zero critical current was observed at low temperatures even if a non-zero phase winding number (fluxoid) was enforced in the ring by the perpendicular magnetic field. In this paper we focus on the "atomic" limit in which the low-energy bound states of different vortices do not overlap. In this limit we can associate the non-vanishing critical current with the irregularities (disorder) in the junction's width. We also discuss the microwave spectroscopy of the Josephson vortices in the atomic limit and observe particularly simple selection rules for the allowed transitions.