Intrinsic electronic superconducting phases at 60 K and 90 K in double-layer YBa2Cu3O6+δ

Abstract

We study superconducting transition temperature (Tc) of oxygen-doped double-layer high-temperature superconductors YBa2Cu3O6+δ (0 δ 1) as a function of the oxygen dopant concentration (δ) and planar hole-doping concentration (Ppl). We find that Tc, while clearly influenced by the development of the chain ordering as seen in the Tc vs. δ plot, lies on a universal curve originating at the critical hole concentration (Pc) = 1/16 in the Tc vs. Ppl plot. Our analysis suggests that the universal behavior of Tc(Ppl) can be understood in terms of the competition and collaboration of chemical-phases and electronic-phases that exist in the system. We conclude that the global superconductivity behavior of YBa2Cu3O6+δ as a function of doping is electronically driven and dictated by pristine electronic phases at magic doping numbers that follow the hierarchical order based on Pc, such as 2 × Pc, 3 × Pc and 4 × Pc. We find that there are at least two intrinsic electronic superconducting phases of Tc = 60 K at 2 × Pc = 1/8 and Tc = 90 K at 3 × Pc = 3/16.

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