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Electro-Optically Derived Arbitrary Millimeter-Wave Sources with 100 GHz of Bandwidth

Published

Author(s)

Bryan Bosworth, Nick Jungwirth, Kassiopeia Smith, Jerome Cheron, Franklyn Quinlan, Madison Woodson, Jesse Morgan, Andreas Beling, Ari Feldman, Dylan Williams, Nate Orloff, Chris Long

Abstract

We demonstrate fine phase and amplitude control of millimeter waves, measured on-wafer using an electro-optic frequency comb, programmable spectral filter, and a uni-traveling carrier photodiode. We then synthesize arbitrary waveforms with 100 GHz of bandwidth and +12.7 dBm amplitude.
Proceedings Title
Conference on Lasers and Electro-Optics
Conference Dates
May 15-20, 2022
Conference Location
San Jose, CA, US

Keywords

Optical frequency comb, millimeter-wave, radio frequency synthesizer

Citation

Bosworth, B. , Jungwirth, N. , Smith, K. , Cheron, J. , Quinlan, F. , Woodson, M. , Morgan, J. , Beling, A. , Feldman, A. , Williams, D. , Orloff, N. and Long, C. (2022), Electro-Optically Derived Arbitrary Millimeter-Wave Sources with 100 GHz of Bandwidth, Conference on Lasers and Electro-Optics, San Jose, CA, US, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=933863 (Accessed October 3, 2025)

Issues

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Created May 20, 2022, Updated December 15, 2022
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