Possible Topological Superconducting Phases of MoS2

Abstract

Molybdenum disulphide (MoS2) has attracted much interest in recent years due to its potential applications in a new generation of electronic devices. Recently, it was shown that thin films of MoS2 can become superconducting with a highest Tc of 10K when the material is heavily gated to the conducting regime. In this work, using the group theoretical approach, we determine the possible pairing symmetries of heavily gated MoS2. Depending on the electron-electron interactions, the material can support an exotic spin-singlet p +ip -wave-like, an exotic spin-triplet s-wave-like and an conventional spin-triplet p-wave pairing phases. Importantly, the exotic spin-singlet p+ip-wave phase is a topological superconducting phase which breaks time-reversal symmetry spontaneously and possesses chiral Majorana edge states.