The excitation of Kerr optical frequency combs(OFC) is frequently non-deterministic and remains a cumbersome problem in many practical situations. While standard techniques to generate Kerr solitons in passive resonators employ a continuous wave pump, recently pulsed pumping has also been proposed. In this study we individuate and classify OFC states in a phase space defined by an experimental set of coordinates and triggered by a general super-Gaussian chirped driving field. Our numerical analysis shows how the soliton drifts caused by the phase modulation of the input field accelerate the dynamics and convergence towards a stable soliton state
Novel generation schemes for stable soliton states in optical microcavities / Talenti, FRANCESCO RINALDO; Hansson, HANS EVERT TOBIAS; Wabnitz, Stefan. - (2022), pp. 1-4. (Intervento presentato al convegno ICOP tenutosi a TRENTO) [10.1109/ICOP56156.2022.9911742].
Novel generation schemes for stable soliton states in optical microcavities
TALENTI FRANCESCO TALENTI
;HANSSON TOBIAS;WABNITZ STEFAN
2022
Abstract
The excitation of Kerr optical frequency combs(OFC) is frequently non-deterministic and remains a cumbersome problem in many practical situations. While standard techniques to generate Kerr solitons in passive resonators employ a continuous wave pump, recently pulsed pumping has also been proposed. In this study we individuate and classify OFC states in a phase space defined by an experimental set of coordinates and triggered by a general super-Gaussian chirped driving field. Our numerical analysis shows how the soliton drifts caused by the phase modulation of the input field accelerate the dynamics and convergence towards a stable soliton state| File | Dimensione | Formato | |
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