2020
DOI: 10.1103/physreva.101.013823
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Effects of self- and cross-phase modulation on the spontaneous symmetry breaking of light in ring resonators

Abstract: We describe spontaneous symmetry breaking in the powers of two optical modes coupled into a ring resonator, using a pair of coupled Lorentzian equations, featuring tunable self-and cross-phase modulation terms. We investigate a wide variety of nonlinear materials by changing the ratio of the self-and cross-phase interaction coefficients. Static and dynamic effects range from the number and stability of stationary states to the onset and nature of oscillations. Minimal conditions to observe symmetry breaking ar… Show more

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Cited by 60 publications
(50 citation statements)
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“…[16] with our expression (12) by setting G = 0 in ψ 2 (only). There is perfect agreement, once the parameters of the two models are matched up using the vertical-slope condition (11). For zero GVD we note that all finite-frequency instabilities occur on the negative-slope branch, as for the non-Ikeda instabilities in Ref.…”
Section: Gain-circle Model For Dispersive Instabilitysupporting
confidence: 55%
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“…[16] with our expression (12) by setting G = 0 in ψ 2 (only). There is perfect agreement, once the parameters of the two models are matched up using the vertical-slope condition (11). For zero GVD we note that all finite-frequency instabilities occur on the negative-slope branch, as for the non-Ikeda instabilities in Ref.…”
Section: Gain-circle Model For Dispersive Instabilitysupporting
confidence: 55%
“…It holds for all values of r and φ and matches all previous special case analyses. It is also valid for all values of the XPM parameter G [11], and thus (9) holds for Kerr liquids, or indeed any Kerr-like material, as well as for dielectrics where G = 2. For a given input reflectivity r, cavity phase φ 0 , and input intensity I in , IL is known from the zero-order solution, and so ( 9) is effectively an analytic formula from which the threshold values of θ, and hence the transverse wavevector K, can be calculated.…”
Section: Gain-circle Model For Diffractive Instabilitymentioning
confidence: 90%
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“…As the repetition rate shift results from the imbalance of self-phase modulations, increasing the proportion of g 12 leads to more stability in the repetition rate, while decreasing the proportion of g 12 allows more tunability. We note that, depending on the nonlinear nature of the resonator material and the mode overlap, the cross-phase modulation may be larger or smaller than the self-phase modulation 52 , 53 . Moreover, theoretical DS solutions exist for almost all combinations of nonlinear coefficients.…”
Section: Resultsmentioning
confidence: 93%
“…Symmetry breaking in this system has recently been investigated in Refs. [6,26,27]. We consider A ¼ 1 and B ¼ 2, since our resonator is nondiffusive [1,28].…”
mentioning
confidence: 99%