Unconventional Pairing in Heavy Fermion Metals

Abstract

The Fermi-liquid theory of superconductivity is applicable to a broad range of systems that are candidates for unconventional pairing. Fundamental differences between unconventional and conventional anisotropic superconductors are illustrated by the unique effects that impurities have on the low-temperature transport properties of unconventional superconductors. For special classes of unconventional superconductors the low-temperature transport coefficients are universal, i.e. independent of the impurity concentration and scattering phase shift. The existence of a universal limit depends on the symmetry of the order parameter and is achieved at low temperatures kB T γ 0, where γ is the bandwidth of the impurity induced Andreev bound states. In the case of UPt3 thermal conductivity measurements favor an E1g or E2u ground state. Measurements at ultra-low temperatures should distinguish different pairing states.

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