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PUBLICATIONS

Foundry manufacturing of octave-spanning microcombs

Published

Author(s)

Jizhao Zang, Haixin Liu, Travis Briles, Scott Papp

Abstract

Soliton microcombs provide a chip-based, octave-spanning source for self-referencing and optical metrology. We use a silicon nitride integrated photonics foundry to manufacture 280 single-chip solutions of octave-spanning microcombs on a wafer. By group-velocity dispersion (GVD) engineering with the waveguide cross section, we shape the soliton spectrum for dispersive-wave spectral enhancements at the frequencies for f-2f self-referencing. Moreover, we demonstrate the other considerations, including models for soliton spectrum design, ultra-broadband resonator external coupling, low-loss edge couplers, and the nonlinear self-interactions of few-cycle solitons. To cover the fabrication tolerance, we systematically scan 336 parameter sets of resonator width and radius, ensuring at least one device on each chip can yield an octave-spanning comb with an electronically detectable carrier-envelope offset frequency, which has been supported by our experiment. Our design and testing process permit highly repeatable creation of single-chip solutions of soliton microcombs optimized for pump operation ∼100 mW and high comb mode power for f-2f detection, which is the central component of a compact microsystem for optical metrology.
Citation
Optics Letters
Volume
49
Issue
18
Pub Type
Journals

Download Paper

https://doi.org/10.1364/OL.527540
Local Download

Keywords

Frequency comb, Microresonator, Self referencing, Foundry, Nonlinear optics
Time and frequency metrology, Time and frequency, Optical physics and communications and Optical / photometry / laser metrology

Citation

Zang, J. , Liu, H. , Briles, T. and Papp, S. (2024), Foundry manufacturing of octave-spanning microcombs, Optics Letters, [online], https://doi.org/10.1364/OL.527540, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=957650 (Accessed October 19, 2024)

Issues

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Created September 6, 2024, Updated September 7, 2024