Novel Technique for High-Frequency Carrier Envelope Offset Frequency Detection using Vernier Microcombs

Kaiyi Wu; Nathan P. O'Malley; Saleha Fatema; Cong Wang; Cong Wang; Marcello Girardi; Mohammed S. Alshaykh; Zhichao Ye; Ryan J. Schneider; Daniel E. Leaird; Daniel E. Leaird; Minghao Qi; Victor Torres-Company; Andrew M. Weiner

doi:10.1364/CLEO_SI.2023.STh1J.4

CLEO 2023
Technical Digest Series (Optica Publishing Group, 2023),
paper STh1J.4
•https://doi.org/10.1364/CLEO_SI.2023.STh1J.4

Novel Technique for High-Frequency Carrier Envelope Offset Frequency Detection using Vernier Microcombs

Kaiyi Wu, Nathan P. O'Malley, Saleha Fatema, Cong Wang, Marcello Girardi, Mohammed S. Alshaykh, Zhichao Ye, Ryan J. Schneider, Daniel E. Leaird, Minghao Qi, Victor Torres-Company, and Andrew M. Weiner

CLEO: Science and Innovations 2023

San Jose, CA United States
7–12 May 2023
ISBN: 978-1-957171-25-8

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Microcombs I (STh1J)

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K. Wu, N. P. O'Malley, S. Fatema, C. Wang, M. Girardi, M. S. Alshaykh, Z. Ye, R. J. Schneider, D. E. Leaird, M. Qi, V. Torres-Company, and A. M. Weiner, "Novel Technique for High-Frequency Carrier Envelope Offset Frequency Detection using Vernier Microcombs," in CLEO 2023, Technical Digest Series (Optica Publishing Group, 2023), paper STh1J.4.

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Abstract

We demonstrate a novel Vernier dual-comb based method for the detection and division of a microcomb's carrier envelope offset frequency that is beyond the bandwidth of typical commercial detection electronics.

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