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Chip -scale optical frequency combs enable the generation of highly -coherent pulsed light at gigahertz-level repetition rates, with potential technological impact ranging from telecommunications to sensing and spectroscopy. In combination with techniques such as dual -comb spectroscopy, their utilization would be particularly beneficial for sensing of molecular species in the mid -infrared spectrum, in an integrated fashion. However, few demonstrations of direct microcomb generation within this spectral region have been showcased so far. In this work, we report the generation of Kerr soliton microcombs in silicon nitride integrated photonics. Leveraging a high -Q silicon nitride microresonator, our device achieves soliton generation under milliwatt-level pumping at 1.97 mu m, with a generated spectrum encompassing a 422 nm bandwidth and extending up to 2.25 mu m. The use of a dual pumping scheme allows reliable access to several comb states, including primary combs, modulation instability combs, as well as multi- and single-soliton states, the latter exhibiting high stability and low phase noise. Our work extends the domain of silicon nitride based Kerr microcombs towards the mid -infrared using accessible factory -grade technology and lays the foundations for the realization of fully integrated mid -infrared comb sources. (c) 2024 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
Tobias Kippenberg, Mikhail Churaev
Tobias Kippenberg, Mikhail Churaev, Xinru Ji, Zihan Li, Alisa Davydova, Junyin Zhang, Yang Chen, Xi Wang, Kai Huang