Full-gap superconductivity in non-centrosymmetric Re6Zr, Re27Zr5 and Re24Zr5

Abstract

Non-centrosymmetric superconductor Re6Zr has attracted much interest, for its possible unconventional superconducting state with time reversal symmetry broken. Here we report the 185/187Re nuclear quadrupole resonance (NQR) measurements on Re6Zr (Tc = 6.72 K) and the isostructural compounds Re27Zr5 (Tc = 6.53 K) and Re24Zr5 (Tc = 5.00 K). The nuclear spin-lattice relaxation rate 1/T1 shows a coherence peak below Tc and decreases exponentially at low temperatures in all three samples. The superconducting gap derived from the 1/T1 data is 2 =3.58 kBTc, 3.55 kBTc, and 3.51 kBTc for Re6Zr ,Re27Zr5, and Re24Zr5, respectively, which is close to the value of 3.53 kBTc expected for weak-coupling superconductivity. These data suggest conventional s-wave superconductivity with a fully-opened gap in this series of compounds.