Domain walls and their experimental signatures in s+is superconductors

Abstract

Arguments were recently advanced that hole-doped Ba1-xKxFe2As2 exhibits s+is state at certain doping. Spontaneous breaking of time reversal symmetry in s+is state, dictates that it possess domain wall excitations. Here, we discuss what are the experimentally detectable signatures of domain walls in s+is state. We find that in this state the domain walls can have dipole-like magnetic signature (in contrast to the uniform magnetic signature of domain walls p+ip superconductors). We propose experiments where quench-induced domain walls can be stabilized by geometric barriers and be observed via their magnetic signature or their influence on the magnetization process, thereby providing an experimental tool to confirm s+is state.