Is the anisotropy of the upper critical field of Sr2RuO4 consistent with a helical p-wave state?

Abstract

We calculate the angular and temperature T dependencies of the upper critical field Hc2(θ,φ,T) for the C4v point group helical p-wave states, assuming a single uniaxial ellipsoidal Fermi surface, Pauli limiting, and strong spin-orbit coupling that locks the spin-triplet d-vectors onto the layers. Good fits to the Sr2RuO4 Hc2,a(θ,T) data of Kittaka et al. [Phys. Rev. B 80, 174514 (2009)] are obtained. Helical states with d( k)=kx x-ky y and ky x+kx y (or kx x+ky y and ky x-kx y) produce Hc2(90,φ,T) that greatly exceed (or do not exhibit) the four-fold azimuthal anisotropy magnitudes observed in Sr2RuO4 by Kittaka et al. and by Mao et al. [Phys. Rev. Lett. 84, 991 (2000)], respectively.