Spontaneous symmetry breaking of dissipative optical solitons in a two-component Kerr resonator

Xu, Gang; Nielsen, Alexander U.; Garbin, Bruno; Hill, Lewis; Oppo, Gian-Luca; Fatome, Julien; Murdoch, Stuart G.; Coen, Stéphane; Erkintalo, Miro

doi:10.1038/s41467-021-24251-0

Cited by 63 publications

(25 citation statements)

References 62 publications

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“…By splitting the linearly polarised light fields into left-and right-circularly polarised components we obtain a total of four circulating fields. SSB, have also seen a recent flurry of studies both theoretical and experimental [8,10,[18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

“…The two separate setups, counter-propagation and two-polarization, are already proving promising in their scope of applications. The polarisation system can be used as a polarization controller [19] and for producing SSB temporal cavity solitons [20] and breathers [21] with the potential to provide novel methods for two-components frequency combs. The counterpropagating system can be used to enhance the Sagnac effect [5] and to realise isolators and circulators [22] for, for example, all optical computing.…”

Section: Introductionmentioning

confidence: 99%

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4-Dimensional Symmetry Breaking of Light in Kerr Ring Resonators

Hill¹,

Haye²,

Oppo³

2022

Preprint

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Symmetry breaking of light states is of interest for the understanding of nonlinear optics, photonic circuits, telecom applications and optical pulse generation. Here we demonstrate 4-fold symmetry breaking of the resonances of ring resonators with Kerr nonlinearity. This symmetry breaking naturally occurs in a resonator with bidirectionally propagating light with orthogonal polarization components. The four circulating field components are shown to exhibit multiple and, nested and isolated, spontaneous symmetry breaking bifurcations, and are also capable of complex oscillatory dynamics -such as four-field self-switching, and unusual temporal cavity soliton-like dynamics on time scales of multiple round-trip times, with extended delays between subsequent generations.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

4-Dimensional Symmetry Breaking of Light in Kerr Ring Resonators

Hill¹,

Haye²,

Oppo³

2022

Preprint

Self Cite

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“…When polarization degree of freedom is taken into account within Kerr resonators, new modulational instabilities can appear due to polarization degree of freedom [11][12][13], leading to domain wall vector solitons [14,15], symmetry breaking [16][17][18][19][20][21], and soliton bound states [22]. Recently, polarization properties of bright DS frequency combs have been the subject of investigation both theoretically [23][24][25][26][27] and experimentally [15].…”

Section: Introductionmentioning

confidence: 99%

Coexistence of dark vector soliton Kerr combs in normal dispersion resonators

et al. 2021

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We investigate the formation of dark vector dissipative solitons in the presence of nonlinear polarization mode coupling in optical resonators subject to a coherent optical injection in the normal dispersion regime. This simple device is described by coupled Lugiato-Lefever equations. The stabilization of dark dissipative solitons is attributed to a front locking mechanism in the bistable regime as shown in a recent communication [B. Kostet et al., OSA Continuum 4, 1564]. Here, we focus on a tristable homogeneous steady state regime. We show that two branches of dark dissipative solitons can coexist for a fixed value of the system parameters. These coexisting solutions possess different polarization states and different peak powers in the microresonator. We characterize their formation by drawing their bifurcation diagrams in regimes far from any modulational instability. It is shown that both branches of localized structures exhibit a heteroclinic collapsed snaking type of behavior. The coexistence of two vectorial branches of dark localized states is not possible without taking into account polarization degrees of freedom.

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“…Since Kerr OFCs associating with DKSs were first observed in a MgF 2 crystal microresonator in 2014 [9], DKSs have been demonstrated in several platforms including Si 3 N 4 [10], AlN [11], and silica [12]. Meanwhile, the influence of high order dispersion [13][14][15], dispersion perturbation caused by mode coupling between different mode families [16,17], two-component pump [18][19][20], thermo-optic effect [21,22], and Raman effect [23,24] on Kerr OFCs was investigated. With the development of silicon photonics [25], there are increasingly applications having been proposed based on on-chip Kerr OFCs, such as ultrafast distance measurements [26], parallel convolution processing [27], and spectroscopy [28].…”

Section: Introductionmentioning

confidence: 99%

Modulation instability of Kerr optical frequency combs in dual-coupled optical cavities

Zhu,

Zhao

2021

Preprint

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Kerr optical frequency combs generated in a coherently driven Kerr nonlinear resonator has the potential for a wide range of applications. However, in a single cavity which is a widely adopted configuration for Kerr optical frequency combs generation, modulation instability is suppressed in normal dispersion regime and the pump-to-comb conversion efficiency is extremely low for a single dissipative Kerr soliton in anomalous dispersion regime. Dual-coupled cavities have been proposed to generate Kerr optical frequency combs in normal dispersion regime, and have potential to remarkably increase conversion efficiency for Kerr optical frequency combs. Here, we investigate modulation instability and Kerr optical frequency-comb formation in dual-coupled cavities. Based on solutions of the continuous-wave steady state, we obtain a quadric algebraic equation describing the modulation instability gain, and we find that it is intensely influenced by the group velocity mismatch between the two cavities. Our numerical simulations demonstrate that platicons can be generated via pump scanning scheme for the case that both the two cavities possess normal dispersion, and a single dissipative Kerr soliton can be generated in the cavity with anomalous dispersion while the dispersion of the other cavity is normal. Our analysis of modulation instability provides a powerful tool for Kerr optical frequency-comb generation via pump modulation and cavity detuning tuning scheme in dual-coupled cavities.

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Spontaneous symmetry breaking of dissipative optical solitons in a two-component Kerr resonator

Cited by 63 publications

References 62 publications

4-Dimensional Symmetry Breaking of Light in Kerr Ring Resonators

4-Dimensional Symmetry Breaking of Light in Kerr Ring Resonators

Coexistence of dark vector soliton Kerr combs in normal dispersion resonators

Modulation instability of Kerr optical frequency combs in dual-coupled optical cavities

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