The nuclear spin-lattice relaxation rate in the PuMGa5 materials

Abstract

We examine the nuclear spin-lattice relaxation rates 1/T1 of PuRhGa5 and PuCoGa5, both in the superconducting and normal states, as well as their Knight shifts. Results for both compounds are consistent with a superconducting gap of d-wave symmetry in the presence of strong impurity scattering, though with quite different gap-over-Tc ratios 2 0/ kB Tc (8 for PuCoGa5 and 5 for PuRhGa5). In the normal state, PuRhGa5 exhibits a gradual suppression of (T1 T)-1 below 25 K, while measurements for PuCoGa5 reveal a monotonic increase down to Tc. We propose that this behavior is consistently understood by the crossover from the two-dimensional quantum antiferromagnetic regime of the local 5f-electron spins of Pu to the concomitant formation of the fermion pseudogap based on the two-component spin-fermion model.

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