Electronic Structure and Fermiology of Superconducting LaNiGa2

Abstract

We report electronic structure calculations for the layered centrosymmetric superconductor LaNiGa2, which has been identified as having a possible triplet state based on evidence for time reversal symmetry breaking. The Fermi surface has several large sheets and is only moderately anisotropic, so that the material is best described as a three dimensional metal. These include sections that are open in the in-plane direction as well as a section that approaches the zone center. The density of states is high and primarily derived from Ga p states, which hybridize with Ni d states. Comparing with experimental specific heat data, we infer a superconducting λ 0.55, which implies that this is a weak to intermediate coupling material. However, the Ni occurs in a nominal d10 configuration in this material, which places the compound far from magnetism. Implications of these results for superconductivity are discussed.