Analyzing Intrinsic Superconducting Gap by Means of Measurement of Bi-2212 Superconductors

Abstract

For the mechanism of high-Tc superconductivity in inhomogeneous Bi-2212 superconductors, we demonstrate the intrinsic superconducting gap,GAPi, and pairing symmetry by using a developed GAP=GAPi/rho, where GAP is the observed energy gap and 0<rho<=1 is band filling. When rho=1, GAP=GAPi<=10 meV, measured at a node, is intrinsic. When 0<rho<1, GAP implies an averaging of GAPi over the measurement region, which is the effect of measurement. From analysis's of conductance data, b=2GAPi/kBTc is less than 4 when rho=1 and the density of state indicates s-wave symmetry. The superconducting gap anisotropy is attributed to the inhomogeneity of the metal phase and the insulating d-wave phase in the measurement region.

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