Dispersion engineering and frequency comb generation in thin silicon nitride concentric microresonators

Kerr frequency comb generation from microresonators requires anomalous dispersion, imposing restrictions on materials and resonator design. Here, Kim et al. propose a concentric racetrack-resonator design where the dispersion can be engineered to be anomalous via resonant mode coupling.

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Bibliographic Details
Main Authors:	Sangsik Kim, Kyunghun Han, Cong Wang, Jose A. Jaramillo-Villegas, Xiaoxiao Xue, Chengying Bao, Yi Xuan, Daniel E. Leaird, Andrew M. Weiner, Minghao Qi
Format:	article
Language:	EN
Published:	Nature Portfolio 2017
Subjects:	Science Q
Online Access:	https://doaj.org/article/7f5bd9725083465a96bd65418b75c0f9
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Description
Summary:	Kerr frequency comb generation from microresonators requires anomalous dispersion, imposing restrictions on materials and resonator design. Here, Kim et al. propose a concentric racetrack-resonator design where the dispersion can be engineered to be anomalous via resonant mode coupling.

Dispersion engineering and frequency comb generation in thin silicon nitride concentric microresonators

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