Ian Hendry scite author profile

We report on a systematic study of temporal Kerr cavity soliton dynamics in the presence of pulsed or amplitude modulated driving fields. In stark contrast to the more extensively studied case of phase modulations, we find that Kerr cavity solitons are not always attracted to maxima or minima of driving field amplitude inhomogeneities. Instead, we find that the solitons are attracted to temporal positions associated with specific driving field values that depend only on the cavity detuning. We describe our findings in light of a spontaneous symmetry breaking instability that physically ensues from a competition between coherent driving and nonlinear propagation effects. In addition to identifying a new type of Kerr cavity soliton behaviour, our results provide valuable insights to practical cavity configurations employing pulsed or amplitude modulated driving fields.

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Impact of desynchronization and drift on soliton-based Kerr frequency combs in the presence of pulsed driving fields

Hendry

Garbin

Murdoch

et al. 2019

Phys. Rev. A

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Pulsed driving of Kerr microresonators represents a promising avenue for the efficient generation of soliton states associated with coherent optical frequency combs. The underlying physics has not, however, yet been comprehensively investigated. Here, we report on a numerical and theoretical study of the impact of de-synchronization between the periodic pump field and the train of solitons circulating in the cavity. We show that de-synchronization can affect the soliton configurations that can be sustained for given parameters, and that it can be leveraged to guarantee operation in the attractive single-soliton regime. We also reveal that the interplay between pump-resonator de-synchronization and stimulated Raman scattering can give rise to rich dynamics that explain salient features observed in recent experiments. Our work elucidates the dynamics of Kerr cavity solitons in the presence of pulsed driving fields, and could facilitate the development of efficient microresonator frequency comb systems. arXiv:1905.09810v1 [physics.optics]

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Experimental observation of internally pumped parametric oscillation and quadratic comb generation in a χ⁽²⁾ whispering-gallery-mode microresonator

Hendry¹,

Trainor²,

Xu³

et al. 2020

Opt. Lett.

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We report on the experimental observation of internally-pumped parametric oscillation in a high-Q lithium niobate microresonator under conditions of natural phase-matching. Specifically, launching near-infrared pump light around 1060 nm into a z-cut congruent lithium niobate microresonator, we observe the generation of optical sidebands around the input pump under conditions where second-harmonic generation is close to natural phase-matching. We find that a wide range of different sideband frequency shifts can be generated by varying the experimental parameters. Under particular conditions, we observe the cascaded generation of several equally-spaced sidebands around the pump -the first steps of optical frequency comb generation via cavity-enhanced second-harmonic generation.

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Ian Hendry

Spontaneous symmetry breaking and trapping of temporal Kerr cavity solitons by pulsed or amplitude-modulated driving fields

Impact of desynchronization and drift on soliton-based Kerr frequency combs in the presence of pulsed driving fields

Experimental observation of internally pumped parametric oscillation and quadratic comb generation in a χ⁽²⁾ whispering-gallery-mode microresonator

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Ian Hendry

Spontaneous symmetry breaking and trapping of temporal Kerr cavity solitons by pulsed or amplitude-modulated driving fields

Impact of desynchronization and drift on soliton-based Kerr frequency combs in the presence of pulsed driving fields

Experimental observation of internally pumped parametric oscillation and quadratic comb generation in a χ(2) whispering-gallery-mode microresonator

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Experimental observation of internally pumped parametric oscillation and quadratic comb generation in a χ⁽²⁾ whispering-gallery-mode microresonator