Local nodal Cooper pairs in multiorbital systems

Abstract

We show the emergence of a new class of superconductivity in multiorbital systems, focusing on non-Kramers f2 states. The Cooper pairs in this class of superconductivity mainly consist of local pairs with the same symmetry as the local f2 ground states. When the local ground state is an anisotropic representation, the superconducting gap has nodes on the Fermi surface. This nodal superconductivity is mediated by the strong onsite inter-orbital attractions as a consequence of negative-U physics generalized to multiorbital systems. We show that this is indeed realized in a simple two-orbital model with antiferro Hund's coupling and enhanced inter-orbital interaction derived via a systematic local down folding. Finally, we briefly discuss superconductivity in Pr-1-2-20 compounds, UBe13, and PrOs4Sb12 in view of the present mechanism.