c-axis transport and phenomenology of the pseudo-gap state in Bi2Sr2CaCu2O8+δ
Abstract
We measure and analyze the resistivity of Bi2Sr2CaCu2O8+δ crystals for different doping δ. We obtain the fraction of carrier η(T,δ) = ng/nTOT that do not participate to the c-axis conductivity. All the curves η(T,δ) collapse onto a universal curve when plotted against a reduced temperature x=[T-(δ)]/*(δ). We find that at the superconducting transition ng is doping independent. We also show that a magnetic field up to 14 T does not affect the degree of localization in the (a,b) planes but widens the temperature range of the x-scaling by suppressing the superconducting phase coherence.
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