Growth and hydrostatic-pressure study of a type-II superconductor Bi2Ta3S6 single crystal

Abstract

We report the growth and physical properties of single-crystalline Bi2Ta3S6 crystallizing in P63/mcm space group, which comprises alternating Ta-S layers and Bi layers with each Bi atom connected with adjacent S atoms. Temperature-dependent electrical resistivity measurements reveal a superconducting transition at 0.84 K, with upper critical field 231 Oe under an out-of-plane magnetic field. The magnetization measurements confirm its nature as a type-II superconductor, with anisotropic Ginzburg-Landau parameter ab = 7.67 and c = 4.50. Hall measurements indicate the dominant carriers as hole. Hydrostatic pressure is applied, under which both the superconducting transition temperature and upper critical field increase sharply under low pressure before undergoing slight suppression under higher pressure. Density functional theory calculations reveal non-trivial topological surface states on (100) surface in Bi2Ta3S6, which may offer a new avenue for exploring potential topological superconductivity in layered transition metal dichalcogenides.