Selected dynamical modes are investigated for the autonomous system formed from a dc biased Josephson junction which is resistively coupled to a resonant tank. A hysteretic zone in the current-voltage characteristic is shown to result from coexisting chaotic and periodic states. The detailed features of these states, including the geometrical structure of the attractors and their basins of attraction, as well as thermally induced transitions between them, are explored
We investigate the effect of the phase difference of appliedfields on the dynamics of mutually coupl...
AbstractWe have been studying chaos in Josephson junctions for the purpose of applying it to physica...
A novel circuit is described which functions as an electronic analog of lumped element transmission ...
Selected dynamical modes are investigated for the autonomous system formed from a dc biased Josephs...
The appearance of chaos along the “charged” resonance circuit branch of the current-voltage characte...
Using the resistively shunted junction model, an array of three resistively coupled, noncapacitive, ...
[[abstract]]The authors report the first experiments and digital and analog simulations which demons...
The main goal of this thesis is to study the dynamics of Josephson junction system in the presence o...
The dynamics of a resistively coupled nonidentical Josephson junction (JJ) circuit is explored and a...
The chaotic behavior in a Josephson-junction system perturbed by dichotomous noise excitation is dis...
[[abstract]]The authors report studies of intermittent chaos in hysteretic Josephson junctions induc...
Numerical simulations have been used to investigate the dynamics of a pair of resistively linked Jos...
[[abstract]]The authors report studies of intermittent chaos in hysteretic Josephson junctions induc...
Using an electronic analog of a resistively shunted driven Josephson junction, the authors have demo...
We analyze the role of the correlated fluctuations, with a correlation time T^, in the dynamics of a...
We investigate the effect of the phase difference of appliedfields on the dynamics of mutually coupl...
AbstractWe have been studying chaos in Josephson junctions for the purpose of applying it to physica...
A novel circuit is described which functions as an electronic analog of lumped element transmission ...
Selected dynamical modes are investigated for the autonomous system formed from a dc biased Josephs...
The appearance of chaos along the “charged” resonance circuit branch of the current-voltage characte...
Using the resistively shunted junction model, an array of three resistively coupled, noncapacitive, ...
[[abstract]]The authors report the first experiments and digital and analog simulations which demons...
The main goal of this thesis is to study the dynamics of Josephson junction system in the presence o...
The dynamics of a resistively coupled nonidentical Josephson junction (JJ) circuit is explored and a...
The chaotic behavior in a Josephson-junction system perturbed by dichotomous noise excitation is dis...
[[abstract]]The authors report studies of intermittent chaos in hysteretic Josephson junctions induc...
Numerical simulations have been used to investigate the dynamics of a pair of resistively linked Jos...
[[abstract]]The authors report studies of intermittent chaos in hysteretic Josephson junctions induc...
Using an electronic analog of a resistively shunted driven Josephson junction, the authors have demo...
We analyze the role of the correlated fluctuations, with a correlation time T^, in the dynamics of a...
We investigate the effect of the phase difference of appliedfields on the dynamics of mutually coupl...
AbstractWe have been studying chaos in Josephson junctions for the purpose of applying it to physica...
A novel circuit is described which functions as an electronic analog of lumped element transmission ...