Superconducting Properties of the Non-Centrosymmetric Superconductor Re6Hf

Abstract

The synthesis and detailed characterization of the noncentrosymmetric superconductor Re6Hf using powder x-ray diffraction (XRD), magnetization, transport and thermodynamic measurements are reported. XRD confirms the crystal structure of Re6Hf to be cubic noncentrosymmetric α-Mn with a lattice parameter a = 9.6850(3). Resistivity, DC and AC magnetization confirms the bulk superconducting transition Tconset ~ 5.96 K. The lower critical field HC1(0)≈ 5.6 mT and upper critical HC2(0) was found to be around 12.2 T which is greater than the Pauli limiting field, indicating unconventional behavior in Re6Hf and leads to the possibility of triplet pairing. A sharp discontinuity in the specific heat data was observed around Tc indicating bulk superconductivity, and the normalized specific heat jump is Cel/γnTc = 1.53 which is in close agreement with BCS value. Superconducting electronic specific heat data is fitted reasonably well for an exponential relation with Sommerfeld coefficient (γ) showing a linear relation with magnetic field suggesting that in Re6Hf dominant pairing channel is s-wave with isotropic superconducting gap parameter without nodes.