Pure high-order dispersion dissipative Kerr solitons in optical cavities
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Open Access
Type
ArticleAuthor/s
Silvestri, CarloQiang, Y. Long
Panda, Krupamaya
Widjaja, Justin
Coen, Stephane
de Sterke, C. Martijn
Runge, Antoine F. J.
Abstract
Through numerical simulations we demonstrate the existence of an infinite family of temporal cavity solitons which balance arbitrary negative pure, even-order dispersion $k$ and self-phase moduation, as well as loss and parametric gain. These correspond to frequency combs with increasingly flatter spectra as $k$ increases. We determine the analytic forms of these solitons in the limit of high pump power and detuning, and derive their scaling properties. In particular, we show that their energy is related to the pulse duration $\Delta\tau$ as $\Delta\tau^{-(k-1)}$.Through numerical simulations we demonstrate the existence of an infinite family of temporal cavity solitons which balance arbitrary negative pure, even-order dispersion $k$ and self-phase moduation, as well as loss and parametric gain. These correspond to frequency combs with increasingly flatter spectra as $k$ increases. We determine the analytic forms of these solitons in the limit of high pump power and detuning, and derive their scaling properties. In particular, we show that their energy is related to the pulse duration $\Delta\tau$ as $\Delta\tau^{-(k-1)}$.
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Date
2025Source title
Optics LettersVolume
50Issue
13Publisher
OpticaLicence
Creative Commons Attribution-NonCommercial-NoDerivatives 4.0Faculty/School
Faculty of Science, School of PhysicsShare