Possible Pairing Symmetry of Superconductor NaxCoO2yH2O
Abstract
To discuss a possibility that the superconductivities in NaxCoO2yH2O are induced by the electron correlation, we investigate the possible pairing symmetry based on the single-band Hubbard model whose dispersion of the bare energy band is obtained by using FLAPW-LDA band structure calculation of NaxCoO2yH2O. The superconducting transition temperature is estimated by solving the Eliashberg equation. In this equation, both normal and anomalous self-energies are calculated up to the third-order terms with respect to the Coulomb repulsion. In the case of spin-singlet pairing, the candidate of pairing symmetry (the maximum eigen value λmaxSS of Eliashberg's equation) belongs to d-wave(E2 representation of D6 group). In the case of spin-triplet pairing, the candidate of pairing symmetry (the maximum eigen value λmaxST of Eliashberg's equation) belongs to fy(y2-3x2)-wave (B1 representation of D6 group). It is found that λmaxSSλmaxST and the transition temperatures of unconventional pairing state are estimated to be low compared with observed temperature within our simple model.
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