Investigation of phase-slip-like resistivity in underdoped YBCO
Abstract
We investigated the anomalous peak resistivity below the onset Tc in underdoped YBCO, reminiscent of that observed in 1D wires of conventional superconductors. We performed measurements of the angular dependence of resistivity ρ(θ) in a magnetic field and the temperature dependence of resistivity ρ(T), which exhibit a peak for B ab-planes. This peak in ρ(T) disappears for B c-axis. The width of the corresponding maximum in ρ(θ) at θ=0o (B ab-planes) decreases with increasing c-axis component of the field (B θ). The maximum in ρ(θ) and ρ(T) decreases with an increasing applied transport current. We analyzed the data using three different models of resistivity based on 2D resistor array, flux motion, and thermally activated phase-slips. Numerical calculations suggest that in a filamentary underdoped system, the phase-slip events could produce the anomalous resistivity close to Tc.
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