Vortex State in NaxCoO2.yH2O: px ipy-wave versus dx2-y2 idxy-wave Pairing
Abstract
Based on an effective Hamiltonian specified in the triangular lattice with possible px ipy- or dx2-y2 idxy-wave pairing, which has close relevance to the newly discovered Na0.35CoO2· yH2O, the electronic structure of the vortex state is studied by solving the Bogoliubov-de Gennes equations. It is found that px ipy-wave is favored for the electron doping as the hopping integral t<0. The lowest-lying vortex bound states are found to have respectively zero and positive energies for px ipy- and dx2-y2 idxy-wave superconductors, whose vortex structures exhibit the intriguing six-fold symmetry. In the presence of strong on-site repulsion, the antiferromagnetic and ferromagnetic orders are induced around the vortex cores for the former and the latter, respectively, both of which cause the splitting of the LDOS peaks due to the lifting of spin degeneracy. STM and NMR measurements are able to probe the new features of vortex states uncovered in this work.
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