Resistive Transition and Upper Critical Field in Underdoped YBa2Cu3O6+x Single Crystals
Abstract
A superconducting transition in the temperature dependence of the ab-plane resistivity of underdoped YBa2Cu3O6+x crystals in the range Tc<30 K has been investigated. Unlike the case of samples with the optimal level of doping, the transition width increased insignificantly with magnetic field, and in the range Tc<13 K it decreased with increasing magnetic field. The transition point Tc(B) was determined by analyzing the fluctuation conductivity. The curves of Bc2(T) measured in the region T/Tc>0.1 did not show a tendency to saturation and had a positive second derivative everywhere, including the immediate neighborhood of Tc. The only difference among the curves of Bc2(T) for different crystal states is the scales of T and B, so they can be described in terms of a universal function, which fairly closely follows Alexandrov's model of boson superconductivity.
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