Electron-Phonon mechanism for Superconductivity in Na0.35CoO2: Valence-Band Suhl-Kondo effect Driven by Shear Phonons
Abstract
To study the possible mechanism of superconductivity in Na0.35CoO2, we examine the interaction between all the relevant optical phonons (breathing and shear phonons) and t2g(a1g+eg')-electrons of Co-ions, and study the transition temperature for a s-wave superconductivity. The obtained T c is very low when the eg'-valence-bands are far below the Fermi level. However, T c is strongly enhanced when the top of the eg'-valence-bands is close to the Fermi level (say -50meV), thanks to interband hopping of Cooper pairs caused by shear phonons. This ``valence-band Suhl-Kondo mechanism'' due to shear phonons is significant to understand the superconductivity in Na0.35CoO2. By the same mechanism, the kink structure of the band-dispersion observed by ARPES, which indicates the strong mass-enhancement (m/m3) due to optical phonons, is also explained.
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