Thermally activated conductance in arrays of small Josephson junctions

Abstract

We present measurements of the temperature-dependent conductance for series arrays of small-capacitance SQUIDs. At low bias voltages, the arrays exhibit a strong Coulomb blockade, which we study in detail as a function of temperature and Josephson energy EJ. We find that the zero-bias conductance is well described by thermally activated charge transport with the activation energy on the order of EC, where is the charge screening length in the array and EC is the charging energy of a single SQUID.