Successive superconducting transitions and Anderson localization effect in Ta2S2C

Abstract

A complex carbide Ta2S2C consists of van der Waals (vdw)-bonded layers with a stacking sequence ... C-Ta-S-vdw-S-Ta-C- ... along the c axis. The magnetic properties of this compound have been studied from DC and AC magnetic susceptibility. Ta2S2C undergoes successive superconducting transitions of a hierachical nature at Tcl = 3.61 0.01 K [Hc1(l)(0) = 28 2 Oe and Hc2(l)(0) = 7.7 0.2 kOe] and Tcu = 9.0 0.2 K [Hc2(u)(0) = 6.0 0.3 kOe]. The intermediate phase between Tcu and Tcl, where δ (= FC - ZFC) ≈ 0, is an intra-grain superconductive state occurring in the Ta-C layers in Ta2S2C. The low temperature phase below Tcl, where δ clearly appears, is an inter-grain superconductive state. The magnetic susceptibility at H well above Hc2(l)(0) is described by a sum of a diamagnetic susceptibility and a Curie-like behavior. The latter is due to the localized magnetic moments of conduction electrons associated with the Anderson localization effect, occurring in the 1T-TaS2 type structure in Ta2S2C.

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