Dipole Interaction in Triplet Superconductivity with Horizontal Line Nodes; Orientation of the Superconducting Order Parameter in Sr2RuO4
Abstract
Dipole interaction in the triplet superconductivity is studied. If the Cooper pairs are formed by the electrons at r and r+(a2,a2,c2) in the body centered tetragonal lattice, (in this case the line nodes run horizontally on the cylindrical Fermi surface), the dipole energy is low when the d-vector is perpendicular to the direction of the angular momentum of the Cooper pairs (l-vector). This result is in contrast with the dipole energies in the ABM state of superfluid 3He, where d-vector is forced to be parallel or antiparallel to the l-vector by the dipole interaction. The recent NQR experiment in Sr2RuO4 by Ishida et al. can be explained by this result.
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