Superfluid weight vs. superconducting temperature based on a U(1) slave-boson approach to the t-J Hamiltonian

Abstract

Based on an improved U(1) slave-boson approach to the t-J Hamiltonian, we invest igate a relationship between the superfluid weight ns/m*(the superconducting charge carrier density/the effective mass of the charge carrier) and the superc onducting temperature Tc. From the present study we find a linear increase of ns/m* with Tc with th e doping concentration in the underdoped region, a saturation around the optimal doping and a decrease in both ns/m* and Tc in the overdoped region. Such a trend of the `boomerang' shaped locus in ns/m* vs. Tc with increas ing doping concentration from the underdoped to the heavily overdoped region is predicted to be in complete agreement with muon-spin-relaxation measurements. The boomerang behavior is found to occur in correlation with reduction in the sp in singlet pairing(spinon pairing) order in the heavily overdoped region.

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