We investigate the impact of chirped driving fields on the dynamics and generation of Kerr cavity breathers and solitons. Synchronous phase and amplitude modulation of the pumping field can be exploited in order to control soliton dynamics. Here we show that using a phase-modulated super-Gaussian pump permits to stabilize the oscillations of breathing solitons. Moreover, our scheme permits to obtain new dynamical attractors, with a prescribed temporal intra-cavity pattern. Straightforward applications are the deterministic generation of optical frequency soliton combs, optical tweezers, and more generally, all-optical manipulation of light pulses.
Control and stabilization of Kerr cavity solitons and breathers driven by chirped optical pulses / Talenti, Francesco Rinaldo; Sun, Yifan; Parra-Rivas, Pedro; Hansson, Tobias; Wabnitz, Stefan. - In: OPTICS COMMUNICATIONS. - ISSN 0030-4018. - 546:(2023), pp. -1. [10.1016/j.optcom.2023.129773]
Control and stabilization of Kerr cavity solitons and breathers driven by chirped optical pulses
Talenti, Francesco Rinaldo;Sun, Yifan;Parra-Rivas, Pedro;Hansson, Tobias;Wabnitz, Stefan
2023
Abstract
We investigate the impact of chirped driving fields on the dynamics and generation of Kerr cavity breathers and solitons. Synchronous phase and amplitude modulation of the pumping field can be exploited in order to control soliton dynamics. Here we show that using a phase-modulated super-Gaussian pump permits to stabilize the oscillations of breathing solitons. Moreover, our scheme permits to obtain new dynamical attractors, with a prescribed temporal intra-cavity pattern. Straightforward applications are the deterministic generation of optical frequency soliton combs, optical tweezers, and more generally, all-optical manipulation of light pulses.| File | Dimensione | Formato | |
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