Magnetism and superconductivity in McTa2S2C (M = Fe, Co, Ni, and Cu)

Abstract

Magnetic properties of McTa2S2C (M = Fe, Co, Ni, Cu) have been studied using SQUID DC and AC magnetic susceptibility. In these systems magnetic M2+ ions are intercalated into van der Waals gaps between adjacent S layers of host superconductor Ta2S2C. Fe0.33Ta2S2C is a quasi 2D XY-like antiferromagnet on the triangular lattice. It undergoes an antiferromagnetic phase transition at TN (= 117 K). The irreversible effect of magnetization occurs below TN, reflecting the frustrated nature of the system. The AF phase coexists with two superconducting phases with the transition temperatures Tcu = 8.8 K and Tcl = 4.6 K. Co0.33Ta2S2C is a quasi 2D Ising-like antiferromagnet on the triangular lattice. The antiferromagnetic phase below TN = 18.6 K coexists with a superconducting phase below Tcu = 9.1 K. Both Ni0.25Ta2S2C and Cu0.60Ta2S2C are superconductors with Tcu (= 8.7 K for Ni and 6.4 K for Cu) and Tcl (= 4.6 K common to McTa2S2C). Very small effective magnetic moments suggest that Ni2+ and Cu2+ spins are partially delocalized.

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