Possible 3D nematic odd-parity pairing in Sr2RuO4: experimental evidences and predictions

Abstract

Due to the presence of a nontrivial three-dimensional spin-orbital entanglement, Sr2RuO4 may be a time-reversal invariant nematic p-wave superconductor with coexisting in-plane and out-of-plane pairings. Here we discuss various signatures of such a state if the out-of-plane pairing component is dominant. First, the enhancement of the superconducting Tc under in-plane uniaxial strains is nearly a quadratic function of the strain, because the out-of-plane pairing lacks a linear-order coupling to the strain. Second, when the strain applies along a certain in-plane direction, the nematic p-wave pairing exhibits only a single phase transition as the temperature is lowered. These are consistent with several recent uniaxial strain measurements, which are otherwise hard to reconcile with chiral p-wave order. We further show that the nematic p-wave state can be distinguished from the chiral p-wave state through the velocity jumps of certain sound waves at the onset of superconductivity. Possible implications for μSR experiment under strain and NMR Knight shift measurement are also discussed.