Two-electron photoemission spectroscopy in Topological Superconductors

Abstract

We demonstrate that the photo-electron counting rate, P(2), measured in two electron coincidence spectroscopy (2e-ARPES) experiments, provides unprecedented insight into the nature of topological superconductivity. In particular, we show that the spin dependence of P(2) allows one to detect superconducting spin-triplet correlations that are induced in a topological superconductor even in the absence of an associated triplet superconducting order parameter. This ability to detect spin-triplet correlations allows one to distinguish between two recently proposed scenarios for the microscopic origin of topological superconductivity in FeSe0.45Te0.55. Finally, we show that P(2) exhibits a characteristic intensity maximum that can be employed to detect topological phase transitions.