Full superconducting gap in the doped topological crystalline insulator, Sn0.6In0.4Te

Abstract

The thermal conductivity of the doped topological crystalline insulator, Sn0.6In0.4Te superconducting single crystal with Tc = 4.1 K, was measured down to 50 mK. It is found that the residual linear term 0/T is negligible in zero magnetic field. The 0/T shows a slow field dependence at low magnetic field. These results suggest that the superconducting gap is nodeless, unless there exist point nodes with directions perpendicular to the heat current. Due to its high-symmetry fcc crystal structure of Sn0.6In0.4Te, however, such point nodes can be excluded. Therefore we demonstrate that this topological superconductor candidate has a full superconducting gap in the bulk. It is likely the unconventional odd-parity A1u state which supports a surface Andreev bound state.