Topological pairings in Janus monolayer TaSSe

Abstract

The Janus monolayer transition metal dichalcogenides[TMDs] MXY[M=Mo,W, etc. and X,Y=S,Se, etc.] has been synthesized recently, and the Rashba spin splitting arises in it owing to the breaking of out-of-plane mirror symmetry[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.97.235404Phys. Rev. B 97, 235404 (2018)]. Here we study the pairing symmetry of superconducting Janus monolayer H-TaSSe by solving the linearized gap equation at the critical temperature Tc. We find that the strong Rashba effect in H-TaSSe could produce topological superconducting states which differs from that in its parent monolayer H-TaS2 and H-TaSe2. More specifically, at the chemical potential μ>-0.08eV, we obtain a time-reversal invariant s+f+p-wave mixed pairing state. This pairing state is full-gap and topologically nontrivial, i.e. Z2=1. However, a time-reversal broken d+p+f pairing belonging to the 2-dimensional irreducible representation E appears at lower chemical potential. It can host a large Chern number C=-6 at appropriate pairing strengths. The results suggest the monolayer H-TaSSe to be a candidate helical or chiral topological superconductor.