Paper Title:
Driven generalized quantum Rayleigh-van der Pol oscillators: Phase localization and spectral response
Published on:
8 January 2024
Primary Category:
Quantum Physics
Paper Authors:
A. J. Sudler,
J. Talukdar,
D. Blume
Analyzes driven quantum Rayleigh, RvdP, and vdP oscillators using master equation framework
Phase space asymmetry introduced by some dissipators breaks rotational symmetry
Oscillators display phase localization but limited frequency entrainment
Asymmetric Arnold tongues found for oscillators without rotational symmetry
Deep quantum regime dynamics differ from other regimes
Phase locking in driven quantum oscillators
This paper analyzes phase locking and frequency synchronization in driven quantum oscillators, including the quantum Rayleigh, Rayleigh-van der Pol, and van der Pol oscillators. It finds that the oscillators exhibit phase localization over a large parameter space, but true synchronization is hindered in the deep quantum regime. Key results show asymmetric Arnold tongue behavior and differences between oscillators with rotationally symmetric versus asymmetric dissipators.
Quantum synchronization through interference blockades
Symmetry breaking in coupled parametric oscillators
Higher-order coupling induces complex synchronization transitions
Effective theory accurately models key dynamics of parametric oscillator
Transition from incoherence to partial synchronization in higher-dimensional oscillators
Synchronization dynamics in interacting oscillator networks
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