Physics – Condensed Matter – Superconductivity
Scientific paper
2009-05-17
J. Phys. Soc. Jpn. 78 (2009) 084712 (1-17)
Physics
Condensed Matter
Superconductivity
19 pages, 12 figures
Scientific paper
10.1143/JPSJ.78.084712
Superconductivity in the cuprate oxide is studied by Kondo-lattice theory based on the t-J model with the el-ph interaction arising from the modulation of the superexchange interaction by phonons. The self-energy of electrons is decomposed into the single-site and multisite ones. It is proved by using the mapping of the single-site one in the t-J model to its corresponding one in the Anderson model that the single-site self-energy is that of a normal Fermi liquid, even if a superconducting (SC) order parameter appears or the multisite one is anomalous. The electron liquid characterized by the single-site self-energy is a normal Fermi liquid. The Fermi liquid is further stabilized by the RVB mechanism. The stabilized Fermi liquid is a relevant unperturbed state that can be used to study superconductivity and anomalous Fermi-liquid behaviors. The so-called spin-fluctuation-mediated exchange interaction, which includes the superexchange interaction as a part, is the attractive interaction that binds d-wave Cooper pairs. An analysis of the spin susceptibility implies that, because of the el-ph interaction, the imaginary part of the exchange interaction has a sharp peak or dip at \pm\omega^*, where \omega^*\simeq \omega_ph in the normal state and \epsilon_G/2 \lessim \omega^* \lessim \epsilon_G /2+ \omega_ph in the SC state, where \omega_ph is the energy of relevant phonons and \epsilon_G is the SC gap. If the imaginary part has a sharp peak or dip at \pm\omega^*, the dispersion relation of quasi-particles has kink structures near \pm\omega^* above and below the chemical potential, the density of states has dip-and-hump structures near \pm \omega^* outside the coherence peaks in the SC state, and the anisotropy of the gap deviates from the simple d-wave anisotropy.
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