Diluted Josephson-junction arrays in a magnetic field: phase coherence and vortex glass thresholds

Abstract

The effects of random dilution of junctions on a two-dimensional Josephson-junction array in a magnetic field are considered. For rational values of the average flux quantum per plaquette f, the superconducting transition temperature vanishes, for increasing dilution, at a critical value xS(f), while the vortex ordering remains stable up to xVL>xS, much below the value xp corresponding to the geometric percolation threshold. For xVL<x<xp, the array behaves as a zero-temperature vortex-glass. Numerical results for f=1/2 from defect energy calculations are presented which are consistent with this scenario.

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