Spontaneous Symmetry Breaking, Oscillations, and Chaotic Regimes in Bidirectionally-Pumped Ring Resonators

Michael T. M. Woodley; Michael T. M. Woodley; Jonathan M. Silver; Jonathan M. Silver; Lewis Hill; François Copie; Leonardo Del Bino; Leonardo Del Bino; Shuangyou Zhang; Gian-Luca Oppo; Pascal Del’Haye

2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2019),
paper ef_p_43

Spontaneous Symmetry Breaking, Oscillations, and Chaotic Regimes in Bidirectionally-Pumped Ring Resonators

Michael T. M. Woodley, Jonathan M. Silver, Lewis Hill, François Copie, Leonardo Del Bino, Shuangyou Zhang, Gian-Luca Oppo, and Pascal Del’Haye

European Quantum Electronics Conference 2019

Munich Germany
23–27 June 2019
ISBN: 978-1-7281-0469-0

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M. T. M. Woodley, J. M. Silver, L. Hill, F. Copie, L. D. Bino, S. Zhang, G. Oppo, and P. Del’Haye, "Spontaneous Symmetry Breaking, Oscillations, and Chaotic Regimes in Bidirectionally-Pumped Ring Resonators," in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2019), paper ef_p_43.

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Abstract

Spontaneous symmetry breaking has been recently demonstrated experimentally in bidirectionally-pumped dielectric microresonators [1, 2]. This process is mediated by cross-phase modulation due to the Kerr nonlinearity. We present comprehensive analytical and dynamical models for this symmetry breaking, with novel results in both time-dependent and time-independent cases, including chaos. The time-dependent system is described by the following pair of dimensionless coupled equations:

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