Perturbation Theory on the Superconductivity of Heavy Fermion Superconductor UPd2Al3

Abstract

We investigate the superconducting mechanism and the transition temperature of heav y fermion superconductor UPd2Al3 on the basis of a single band two-dimensional Hubbard model on triangular lattice, whi ch represents the most heavy band of UPd2Al3. Both normal and anomalous self-energies are calculated up to third order with respect to the Coulomb repulsion U between itinerant electrons. The superconducting transition temperature is obtained by solving the Eliashberg's equation. Reasonable transition temperatures are obtained for moderately large U. It is fou nd that the momentum and frequency dependence of spin fluctuations given by RPA-like terms gives rise to the d-wave pairing state, while the vertex correction terms are important for obtaining reasonable transition tempe ratures. These results seem to show that the superconductivity in UPd2Al3 can be explained by the perturbation theory with respect to U.

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