Current-voltage characteristics of diluted Josephson-junction arrays: scaling behavior at current and percolation threshold

Abstract

Dynamical simulations and scaling arguments are used to study the current-voltage (IV) characteristics of a two-dimensional model of resistively shunted Josephson-junction arrays in presence of percolative disorder, at zero external field. Two different limits of the Josephson-coupling concentration p are considered, where pc is the percolation threshold. For p > pc and zero temperature, the IV curves show power-law behavior above a disorder dependent critical current. The power-law behavior and critical exponents are consistent with a simple scaling analysis. At pc and finite temperature T, the results show the scaling behavior of a T=0 superconducting transition. The resistance is linear but vanishes for decreasing T with an apparent exponential behavior. Crossover to non-linearity appears at currents proportional to % T1+T, with a thermal-correlation length exponent T consistent with the corresponding value for the diluted XY model at pc.

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