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Phase dynamics and IV-characteristics of two parallel stacks of coupled Josephson junctions

Two parallel stacks of coupled Josephson junctions are investigated to clarify the physics of transitions between the rotating and oscillating states and their effect on the IV-characteristics of the system. The detailed study of phase dynamics and bias dependence of the superconducting and diffusion currents allows one to explain all features of simulated IV-characteristics and demonstrate the correspondence in their behavior. The coupling between JJ in the stacks leads to the branching of IV-characteristics and a decrease in the hysteretic region. The crucial role of the diffusion current in the formation of the IV-characteristic of the parallel stacks of coupled Josephson junctions is demonstrated. We discuss the effect of symmetry in a number of junctions in the stacks and show a decrease of the branching in the symmetrical stacks. The observed effects might be useful for development of superconducting electronic devices based on intrinsic Josephson junctions.

preprint2014arXivOpen access
Yu. M. ShukrinovI. R. RahmonovA. PlecenikM. GrajcarP. SeidelE. Il'ichevW. Nawrocki
cond-mat.supr-con
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Yu. M. ShukrinovI. R. RahmonovA. PlecenikM. GrajcarP. SeidelE. Il'ichevW. Nawrocki

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