An Electronic Model for CoO2 layer based systems: Chiral RVB metal and Superconductivity
Abstract
Takada et al. have reported superconductivity in layered Na_x CoO2.yH2O (Tc ≈5 K) and more recently Wen et al. in AxCoO2+δ (A = Na,K)(≈~31 K). We model a reference neutral layer as an orbitally non-degenerate spin- antiferromagnetic Mott insulator on a triangular lattice and Na_x CoO2.yH2O and AxCoO2+δ as electron doped Mott insulators described by a t-J model. It is suggested that at optimal doping chiral spin fluctuations enhanced by the dopant dynamics leads to a d-wave superconducting state. A chiral RVB metal, a PT violating state with condensed RVB gauge fields, with a possible weak ferromagnetism and low temperature p-wave superconductivity are also suggested at higher dopings.
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