Study on successive superconducting transitions in Ta2S2C from electrical resistivity and nonlinear AC magnetic susceptibility

Abstract

Ta2S2C compound undergoes superconducting transitions at Tcl = 3.60 0.02 K and Tcu = 9.0 0.2 K. The nature of successive superconducting transitions has been studied from electrical resistivity, linear and nonlinear AC magnetic susceptibilities. The resistivity at H = 0 shows a local maximum near Tcu, a kink-like behavior around Tcl, and reduces to zero at below T0 = 2.1 K. The T dependence of is observed at H = 50 kOe at low temperatures, which is due to two-dimensional weak-localization effect. Below Tcu a two-dimensional superconducting phase occurs in each TaC layer. The linear and nonlinear susceptibilities 1, 3, 5, and 7 as well as the difference δ (= FC - ZFC) between the FC and ZFC susceptibilities, start to appear below 6.0 K, the onset temperature of irreversibility. A drastic growth of the in-plane superconducting coherence length below 6.0 K gives rise to a three-dimensional superconducting phase below Tcl, through interplanar Josephson couplings between adjacent TaC layers. The oscillatory behavior of 3, 5, and 7 below Tcl is related to the nonlinear behavior arising from the thermally activated flux flow.

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