Evidence for Unconventional Strong-coupling Superconductivity in PrOs4Sb12 : An Sb Nuclear Quadrupole Resonance (NQR) Study

Abstract

We report Sb-NQR results which evidence a heavy-fermion (HF) behavior and an unconventional superconducting (SC) property in the filled-skutterudite compound PrOs4Sb12 revealing a SC transition temperature Tc=1.85 K. The temperature (T) dependence of nuclear-spin-lattice-relaxation rate 1/T1 and NQR frequency unravel a low-lying crystal-electric-field splitting below T0~10 K, associated with Pr3+ (4f2)-derived ground state. The emergence of T1T=const. behavior below TF~4 K points to the formation of heavy-quasiparticle state. In the SC state, 1/T1 shows neither a coherence peak nor a T3like power-law behavior observed for HF superconductors to date. The isotropic energy-gap with a size of gap Delta/kB=4.8 K begins to already open up at T*~2.3 K without any coherence effect just below Tc=1.85 K. We highlight that the superconductivity in PrOs4Sb12, which is in an unconventional strong-coupling regime, differs from a conventional s-wave type and any unconventional ones with the line-node gap.

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