Dissipative Solitons and Switching Waves in Dispersion-Modulated Kerr Cavities

We theoretically and experimentally investigate the formation of dissipative coherent structures in Kerr nonlinear optical microresonators, whose spectrum encompasses an integrated dispersion that exceeds the cavity free-spectral range. We are able to access this regime in low-dispersion photonic ch...

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Bibliographic Details
Published in:Physical review. X 2023-03, Vol.13 (1), p.011040, Article 011040
Main Authors: Anderson, Miles H., Tikan, Alexey, Tusnin, Aleksandr, Riemensberger, Johann, Davydova, Alisa, Wang, Rui Ning, Kippenberg, Tobias J.
Format: Article
Language:English
Subjects:
Astronomical spectroscopy
Bandwidths
Continuous radiation
Dissipation
Distance measurement
Dynamical systems
Four-wave mixing
Fourier transforms
Laser arrays
Lasers
Nonlinear dynamics
Nonlinear optics
Optical frequency
Phase matching
Repetition
Resonance
Silicon nitride
Solitary waves
Spectrum allocation
Spectrum analysis
Switching
Wave dispersion
Wave fronts
Waveguides
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Summary:We theoretically and experimentally investigate the formation of dissipative coherent structures in Kerr nonlinear optical microresonators, whose spectrum encompasses an integrated dispersion that exceeds the cavity free-spectral range. We are able to access this regime in low-dispersion photonic chip-based microresonators by employing synchronous pulse driving, which increases the peak power over the continuous-wave-driving regime. Exploring this dispersion-folded regime, we demonstrate that the presence of periodically varying dispersion can excite higher-order comb structures, which we explore in both the normal and anomalous dispersion regimes. In the former, we observe the coexistence of switching wave fronts with Faraday instability-induced period-doubling patterns. They manifest as strong satellite microcombs highly separated either side of the core microcomb, at an offset close to half the repetition rate but while sharing the same repetition rate. In the latter, for dissipative Kerr solitons in anomalous dispersion, we observe the formation of higher-order phase-matched dispersive waves (“Kelly-like” sidebands), where the folded dispersion crosses the frequency comb grid. We observe up to the fifth higher-order dispersive wave in our experiments and show that these higher-order dispersive waves coherently extend the soliton frequency comb bandwidth significantly. For both cases, we show that our results can be understood by considering four-wave mixing in a two-dimensional Fourier transform representation. The results demonstrate the rich novel nonlinear dynamics of driven dissipative nonlinear cavities with periodically varying dispersion in the dispersion-folded pumping regime.
ISSN:2160-3308
2160-3308
DOI:10.1103/PhysRevX.13.011040