Temperature Dependence of Zero-Bias Resistances of a Single Resistance-Shunted Josephson Junction
Abstract
Zero-bias resistances of a single resistance-shunted Josephson junction are calculated as a function of the temperature by means of the path-integral Monte Carlo method in case a charging energy E C is comparable with a Josephson energy E J. The low-temperature behavior of the zero-bias resistance changes around α=R Q/R S=1, where R S is a shunt resistance and R Q=h/(2e)2. The temperature dependence of the zero-bias resistance shows a power-law-like behavior whose exponent depends on E J/E C. These results are compared with the experiments on resistance-shunted Josephson junctions.
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