Marek Foltyn, Konrad Norowski, Alexander Savin, Maciej Zgirski
Published 2018-12-14Version 1
Josephson junctions and superconducting wires when probed with current pulses exhibit stochastic switching from superconducting to a stable non-zero voltage state. Electrical current dependence of the switching probability (so called S-curve) or switching current distribution is a fingerprint of the physics governing the escape process. This work addresses the criterion of independent switching event in a series of switching experiments. Treating Josephson junction as an electrical coin with current-tuned switching probability we investigate effect of correlation between switching events on the switching statistics.
Phase diffusion and charging effects in Josephson junctions
Thermal signature of Majorana fermions in Josephson junction
Photonic heat transport through a Josephson junction in a resistive environment
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