Critical currents and vortex-unbinding transitions in quench-condensed ultrathin films of Bismuth and Tin
Abstract
We have investigated the I-V characteristics of strongly disordered ultra-thin films of Bi and Sn produced by quench-condensation. Our results show that both these sytems can be visualized as strongly disordered arrays of Josephson junctions. The experimentally observed I-V characteristics of these films is hysteretic, when the injected current is ramped from zero to critical current and back. These are remarkably similar to the hysteretic I-V of an underdamped single junction. We show by computer simulations that hysteresis can persist in a very strongly disordered array. It is also possible to estimate the individual junction parameters (R, C and Ic) from the experimental I-Vs of the film using this model. The films studied are in a regime where the Josephson-coupling energy is larger than the charging energy. We find that a simple relation Ic(T)=Ic(0)(1-(T/Tc)4) describes the temperature dependence of the critical current quite accurately for films with sheet resistance 500 or lower. We also find evidence of a vortex-unbindi
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