Efficient microresonator frequency combs
Reviewartikel, 2024
The rapid development of optical frequency combs from their table-top origins towards chip-scale platforms has opened up exciting possibilities for comb functionalities outside laboratories. Enhanced nonlinear processes in microresonators have emerged as a mainstream comb-generating mechanism with compelling advantages in size, weight, and power consumption. The established understanding of gain and loss in nonlinear microresonators, along with recently developed ultralow-loss nonlinear photonic circuitry, has boosted the optical energy conversion efficiency of microresonator frequency comb (microcomb) devices from below a few percent to above 50%. This review summarizes the latest advances in novel photonic devices and pumping strategies that contribute to these milestones of microcomb efficiency. The resulting benefits for high-performance integration of comb applications are also discussed before summarizing the remaining challenges.
Optical frequency comb
Nonlinear photonics
Optical microresonator
Författare
Qi-Fan Yang
Beijing University of Technology
Yaowen Hu
Beijing University of Technology
Harvard University
Victor Torres Company
Chalmers, Mikroteknologi och nanovetenskap, Fotonik
Kerry Vahala
California Institute of Technology (Caltech)
ELIGHT
2097-1710 (ISSN) 2662-8643 (eISSN)
Vol. 4 1 18Flerdimensionell koherentkommunikation med mikrofrekvenskammar
Vetenskapsrådet (VR) (2020-00453), 2020-12-01 -- 2026-11-30.
Frigöra full fiberoptisk kapacitet
Knut och Alice Wallenbergs Stiftelse (KAW 2018.0090), 2019-07-01 -- 2024-06-30.
Dark-Soliton Engineering in Microresonator Frequency Combs (DarkComb)
Europeiska kommissionen (EU) (EC/H2020/771410), 2018-05-01 -- 2023-04-30.
Ämneskategorier (SSIF 2011)
Atom- och molekylfysik och optik
Annan fysik
Kommunikationssystem
DOI
10.1186/s43593-024-00075-5