Influence of coupling between junctions on breakpoint current in intrinsic Josephson junctions
Abstract
We study theoretically the current-voltage characteristics of intrinsic Josephson junctions in high-Tc superconductors. An oscillation of the breakpoint current on the outermost branch as a function of coupling α and dissipation β parameters is found. We explain this oscillation as a result of the creation of longitudinal plasma waves at the breakpoint with different wave numbers. We demonstrate the commensurability effect and predict a group behavior of the current-voltage characteristics for the stacks with a different number of junctions. A method to determine the wave number of longitudinal plasma waves from α- and β-dependence of the breakpoint current is suggested. We model the α- and β-dependence of the breakpoint current and obtain good agreement with the results of simulation.
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