Optimizing superconductivity: from cuprates via nickelates to palladates

Abstract

Motivated by cuprate and nickelate superconductors, we perform a comprehensive study of the superconducting instability in the single-band Hubbard model. We calculate the spectrum and superconducting transition temperature T c as a function of filling and Coulomb interaction for a range of hopping parameters, using the dynamical vertex approximation. We find the sweet spot for high T c to be at intermediate coupling, moderate Fermi surface warping, and low hole doping. Combining these results with first principles calculations, neither nickelates nor cuprates are close to this optimum within the single-band description. Instead, we identify some palladates, notably RbSr2PdO3 and A2PdO2Cl2 (A=Ba0.5La0.5), to be virtually optimal, while others, such as NdPdO2, are too weakly correlated.

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