Stokes microcombs in silicon nitride microresonators
Abstract
Silicon nitride microresonators have become an ubiquitous platform for cutting-edge photonics applications. Improvement in silicon nitride fabrication techniques, providing ultra-high quality-factor values up to , has opened up new possibilities for nonlinear effects realizations in such structures. Here we report for the first time to our knowledge on the observation of the Stokes microcombs in silicon nitride on-chip microresonators exhibiting normal group velocity dispersion. Moreover, using different pump schemes, namely, a tunable laser with an isolator and a stabilized diode laser, we demonstrate on-chip stimulated Raman frequency combs including dark-pulse Raman states. We reveal a complex interplay between Kerr and Raman nonlinearities and elaborate effective method of controllable switching between predominantly Kerr-comb and predominantly Raman-comb operation. We prove the Raman-induced platicon formation by numerical model which shows perfect agreement with experimental results. These findings are of special importance for silicon nitride photonics and provide a basis for novel photonic devices.
Cite
@article{arxiv.2511.05767,
title = {Stokes microcombs in silicon nitride microresonators},
author = {Artem E. Shitikov and Alina N. Golodukhina and Nikita Yu. Dmitriev and Darya M. Sokol and Valery E. Lobanov and Igor A. Bilenko and Dmitry A. Chermoshentsev},
journal= {arXiv preprint arXiv:2511.05767},
year = {2025}
}
Comments
13 pages, 10 figures