Spin-orbit-phonon interaction as an origin of helical-symmetry breaking spin-triplet superconducting state

Abstract

The excess increase of the local field distribution width Hσ/γμ (with γμ=135.5\,MHz/T being the gyromagnetic ratio of μ+), and/or the spontaneous magnetic field H spon, have been reported in the superconducting state of a series of compounds more than 10 by μSR (muon spin rotation or relaxation) experiment. Sizes of these quantities are of the order of 1G on the whole. We propose that the increase of the local field distribution H in those compounds, including ions with strong spin-orbit interaction of 5d electrons, such as La in LaNiGa2 or Re in Re6Zr, is possible through the cooperation of the spin-orbit coupling between the quasiparticles and ionic vibrations (phonons) and the conventional quasiparticles-phonon coupling, inducing the spin-triplet p-wave pairing with helical symmetry breaking superconducting state with chiral super spin current around stopped μ+ site. The size of H is estimated as of the order of 1G, in consistent with experimental observations.