A Superconducting Instability in the Infinite-U Anderson Lattice in the Presence of Crystal Electric Fields

Abstract

We report evidence of a superconducting instability (of T1g symmetry) in the infinite-U Anderson lattice in the presence of crystal fields of cubic symmetry. We assume a lattice of 4f sites, each with a total angular momentum of J=5/2 that is split by crystal fields into a low-lying doublet of 7 symmetry and an excited quartet of 8 symmetry. Slave Bosons on the 4f sites create and destroy 4f0 configurations and Lagrange multipliers at each 4f site enforce the occupancy constraint due to the infinite Coulomb repulsion. Quasiparticle interactions are due to exchange of 4f density fluctuations, which are represented by fluctuations in the slave Bosons and Lagrange multipliers. We use the so-called analytic tetrahedron method to calculate the dressed (to order 1/N) Boson Green functions. In weak couping, the exchange of the dressed Bosons gives rise to a superconducting instability of T1g, xy(x2-y2), symmetry. The A1g, ``s-wave'', channel has strongly repulsive interactions and hence no pairing instability. The T2g channel exhibits weakly repulsive interactions. Average quasiparticle interactions in the Eg, x2-y2, 3z2-r2, channel fluctuate strongly as a function of the number of tetrahedra used to calculate the Bosonic Green functions,

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