Multiband Superconductivity of Heavy Electrons in TlNi2Se2 single crystal

Abstract

Superconductivity has been first observed in TlNi2Se2 at TC=3.7 K and appears to involve heavy electrons with an effective mass m*=1420 mb, as inferred from the normal state electronic specific heat and the upper critical field, HC2(T). Although the zero-field electronic specific heat data, Ces(T), in low temperatures (T < 1/4 TC) can be fitted with a gap BCS model, indicating that TlNi2Se2 is a fully gapped superconductor, the two-gap BCS model presents the best fit to all the Ces(T) data below TC. It is also found that the electronic specific heat coefficient in the mixed state, γN(H), exhibits a H1/2 behavior, which was also observed in some s-wave superconductors, although once considered as a common feature of the d-wave superconductors. Anyway, these results indicate that TlNi2Se2, as a non-magnetic analogue of TlFexSe2 superconductor, is a multiband superconductor of heavy electron system.