Spin Susceptibility of a J=3/2 Superconductor

Abstract

We discuss the spin susceptibility of superconductors in which a Cooper pair consists of two electrons having the angular momentum J=3/2 due to strong spin-orbit interactions. The susceptibility is calculated analytically for pseudospin quintet states in a cubic superconductor within the linear response to a Zeeman field. The susceptibility for A1g symmetry states is isotropic in real space. For Eg and T2g symmetry cases, the results depend sensitively on choices of order parameter. The susceptibility is isotropic for a T2g symmetry state, whereas it becomes anisotropic for an Eg symmetry state. We also find in a T2g state that the susceptibility tensor has off-diagonal elements.