RF and microwave photonic temporal signal processing with Kerr micro-combs

Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic radio frequency (RF) and microwave signal processing, particularly for transversal filter systems. They offer significant advantages featuring a compact device footprint, high versatility, large numbers of...

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Published inAdvances in physics: X Vol. 6; no. 1
Main Authors Tan, Mengxi, Xu, Xingyuan, Wu, Jiayang, Morandotti, Roberto, Mitchell, Arnan, Moss, David J.
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 01.01.2021
Taylor & Francis Ltd
Taylor & Francis Group
Subjects
Integrators
micro-ring resonators
Microwave photonics
Radio frequency
Signal processing
Transversal filters
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Abstract Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic radio frequency (RF) and microwave signal processing, particularly for transversal filter systems. They offer significant advantages featuring a compact device footprint, high versatility, large numbers of wavelengths, and wide Nyquist bands. We review progress on photonic RF and microwave high bandwidth temporal signal processing based on Kerr micro-combs with comb spacings from 49 GHz to 200 GHz. We focus on integral and fractional Hilbert transforms, differentiators as well as integrators. The future potential of optical micro-combs for RF photonic applications in terms of functionality and ability to realize integrated solutions is also discussed.
AbstractList Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic radio frequency (RF) and microwave signal processing, particularly for transversal filter systems. They offer significant advantages featuring a compact device footprint, high versatility, large numbers of wavelengths, and wide Nyquist bands. We review progress on photonic RF and microwave high bandwidth temporal signal processing based on Kerr micro-combs with comb spacings from 49 GHz to 200 GHz. We focus on integral and fractional Hilbert transforms, differentiators as well as integrators. The future potential of optical micro-combs for RF photonic applications in terms of functionality and ability to realize integrated solutions is also discussed.
Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic radio frequency (RF) and microwave signal processing, particularly for transversal filter systems. They offer significant advantages featuring a compact device footprint, high versatility, large numbers of wavelengths, and wide Nyquist bands. We review progress on photonic RF and microwave high bandwidth temporal signal processing based on Kerr micro-combs with comb spacings from 49 GHz to 200 GHz. We focus on integral and fractional Hilbert transforms, differentiators as well as integrators. The future potential of optical micro-combs for RF photonic applications in terms of functionality and ability to realize integrated solutions is also discussed.
Author Mitchell, Arnan
Morandotti, Roberto
Wu, Jiayang
Moss, David J.
Xu, Xingyuan
Tan, Mengxi
Author_xml – sequence: 1
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  surname: Tan
  fullname: Tan, Mengxi
  organization: Swinburne University of Technology
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  fullname: Xu, Xingyuan
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  surname: Moss
  fullname: Moss, David J.
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  organization: Swinburne University of Technology
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Snippet Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic radio frequency (RF) and microwave signal processing,...
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SubjectTerms Integrators
micro-ring resonators
Microwave photonics
Radio frequency
Signal processing
Transversal filters
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Title RF and microwave photonic temporal signal processing with Kerr micro-combs
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