Journal
JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN
Volume 72, Issue 3, Pages 673-687Publisher
PHYSICAL SOC JAPAN
DOI: 10.1143/JPSJ.72.673
Keywords
spin triplet superconductivity; Sr2RuO4; D-vector; spin-orbit coupling
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Triplet superconductivity in Sr2RuO4 is investigated with main interest on its internal degree of freedom. We perform a microscopic calculation to investigate how the chiral state (d) over cap (k) = (k(x) +/- ik(y))(z) over cap is realized among the underlying six degenerate states. Starting from the three band Hubbard model with spin-orbit interaction. we use a perturbation theory in order to calculate the pairing interaction. The p-wave superconductivity with T-c similar to 1.5 K is obtained in the moderately weak coupling region. It is shown that the orbital dependent superconductivity (ODS) robustly appears in Sr2RuO4. We determine the stabilized state by solving the Eliashberg equations. We find that the Hand coupling term as well as the spin-orbit interaction is necessary for the symmetry breaking interaction. The main result is that the chiral state is stabilized in case of the p-wave symmetry with the main gamma-band, which is obtained in the perturbation theory. When we assume the other pairing symmetry including the f-wave state, the symmetry breaking interaction gives the other d-vector. The electronic structure constructed from the t(2g)-orbitals is essential for this result.
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