Noise in resistively shunted Josephson junctions
Fernando T Brandt, Josif Frenkel, John C Taylor
TL;DR
This paper studies the dynamics of resistively shunted Josephson junctions, focusing on Josephson frequency and impedance to understand the impact of zero-temperature current noise on measurable effects.
Contribution
It provides detailed calculations of Josephson frequency and impedance across various parameters, enhancing understanding of noise effects in these junctions.
Findings
Calculated Josephson frequency for different parameters
Analyzed generalized impedance related to zero-temperature noise
Predicted measurable effects of current noise in resistively shunted junctions
Abstract
We investigate the dynamics of a resistively shunted Josephson junction. We compute the Josephson frequency and the generalized impedances for a variety of the parameters, particularly with relevance to predicting the measurable effects of zero-temperature current noise in the resistor.
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