Spontaneous edge corner currents in s+is superconductors and time reversal symmetry breaking surface states

Abstract

We present a study of the basic microscopic model of an s-wave superconductor with frustrated interband interaction. When frustration is strong, such an interaction gives raise to a s+is state. This is a s-wave superconductor that spontaneously breaks time reversal symmetry. We show that, in addition to the known s+is state, there is additional phase, where the system's bulk is a conventional s-wave state, but superconducting surface states break time reversal symmetry. Furthermore, we show that s+is superconductors can have spontaneous boundary currents and spontaneous magnetic fields. These arise at lower-dimensional boundaries, namely, the corners, in two-dimensional samples. This demonstrates that boundary currents effects in superconductors can arise in states which are not topological and not chiral according to the modern classification.