Superconducting properties and topological nodal line signatures in centrosymmetric compound SnTaS$_2$

We report the magnetization, electrical resistivity, specific heat measurements and band structure calculations of layered superconductor SnTaS$_2$. The experiments are performed on single crystals grown by chemical vapor transport method. The resistivity and magnetic susceptibility indicate that SnTaS$_2$ is a type-II superconductor with transition temperature $T_c = 3$ K. The upper critical field ($H_{c2}$) shows large anisotropy for magnetic field parallel to $ab$ plane ($H//ab$) and $c$ axis ($H//c$). The temperature dependence of $H_{c2}$ for $H//ab$ shows obvious upward feature at low temperature, which may originate from the multiband effect. Band structure of SnTaS$_2$ shows several band crossings near the Fermi level, which form three nodal lines in the k$_z$ = 0 plane when spin-orbit coupling is not considered. Drumhead-like surface state from the nodal lines are clearly identified. These results indicate that SnTaS$_2$ is a superconducting topological nodal line semimetal.