Edge-currents in superconductors with a broken time-reversal symmetry
Abstract
We analyze edge currents and edge bands at the surface of a time-reversal symmetry breaking dx2-y2+idxy superconductor. We show that the currents have large Friedel oscillations with two interfering frequencies: 2kF from sub-gap states, and 2 kF from the continuum. The results are based independently on a self-consistent slave-boson mean field theory for the t-J model on a triangular lattice, and on a T-matrix scattering theory calculation. The shape of the edge-state band, as well as the particular frequency 2kF of the Friedel oscillations are attributes unique for the dx2-y2+idxy case, and may be used as a fingerprint for its identification. Extensions to different time-reversal symmetry breaking superconductors can be achieved within the same approach.
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