Superconducting properties in a candidate topological nodal line semimetal SnTaS2 with a centrosymmetric crystal structure

Abstract

We report the magnetization, electrical resistivity, specific heat measurements and band structure calculations of layered superconductor SnTaS2. The experiments are performed on single crystals grown by chemical vapor transport method. The resistivity and magnetic susceptibility indicate that SnTaS2 is a type-II superconductor with transition temperature Tc = 3 K. The upper critical field (Hc2) shows large anisotropy for magnetic field parallel to ab plane (H//ab) and c axis (H//c), and the temperature dependence of Hc2 for H//ab shows obvious unconventional upward feature at low temperature. Band structure of SnTaS2 shows several band crossings near the Fermi level, which form three nodal lines in the kz = 0 plane resulting in drumhead-like surface states when spin-orbit coupling is not considered. These results indicate that SnTaS2 is a superconductor with possible topological nodal line semimetal character.