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This research investigates the phase dynamics of two Josephson junctions under varying magnetic fields, focusing on chaotic behaviors.

March 26, 2026

Parametric Resonance and Chaotic Phase Dynamics of a Two-Contact SQUID

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This research investigates the phase dynamics of two Josephson junctions under varying magnetic fields, focusing on chaotic behaviors.
Analyzed the phase dynamics of two Josephson junctions connected in series.
Utilized computer simulations to study effects of periodic magnetic flux modulation.
Explored the implications of resonant capture and stochastic layering on phase behavior.
Identified that periodic magnetic flux can cause parametric instability in superconducting systems.
Demonstrated emergence of chaotic phase dynamics in dissipation-free conditions.
Noted unique phenomena such as resonance capture and separatrix coverage by stochastic layers.

Resumen

The phase dynamics of two Josephson junctions connected in series and subjected to a time-varying magnetic field is explored. It is shown that periodical modulation of the magnetic flux, which determines the effective energy of an united Josephson junction, can lead to parametric instability and chaotic phase dynamics. Using computer simulations, it is demonstrated that in the chaotic regime, the phase of a dissipation-free superconducting device exhibits some novel phenomena. These include capture into resonance and “coverage” of the separatrix by a stochastic layer. We briefly discuss the possible application of the findings.

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Parametric Resonance and Chaotic Phase Dynamics of a Two-Contact SQUID

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