Optical frequency comb noise spectra analysis using an asymmetric fiber delay line interferometer

A simple and practical apparatus enabling repetition rate (frep) noise, carrier-envelope frequency (fceo) noise and n optical comb mode (νn) noise spectra measurements with high precision is established. The frep and νn noise spectra are measured by a fiber delay line interferometer, while fceo nois...

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Published inOptics express Vol. 28; no. 7; pp. 9232 - 9243
Main Authors Tian, Haochen, Yang, Wenkai, Kwon, Dohyeon, Li, Runmin, Zhao, Yuwei, Kim, Jungwon, Song, Youjian, Hu, Minglie
Format Journal Article
LanguageEnglish
Published United States 30.03.2020
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Abstract A simple and practical apparatus enabling repetition rate (frep) noise, carrier-envelope frequency (fceo) noise and n optical comb mode (νn) noise spectra measurements with high precision is established. The frep and νn noise spectra are measured by a fiber delay line interferometer, while fceo noise spectrum is measured by an f-2f interferometer. We utilize this apparatus to characterize the noise performance of an Er-fiber optical frequency comb (OFC) and analyze the origin of dominant noise sources. Moreover, this apparatus provides a powerful tool for diagnosing noise dynamics intrinsic in mode-locked lasers and OFCs. To this end, we uncover the anti-correlation between frep and fceo noise as well as the impact of servo loops on noise characteristics in the stabilized OFC.
AbstractList A simple and practical apparatus enabling repetition rate (frep) noise, carrier-envelope frequency (fceo) noise and n optical comb mode (νn) noise spectra measurements with high precision is established. The frep and νn noise spectra are measured by a fiber delay line interferometer, while fceo noise spectrum is measured by an f-2f interferometer. We utilize this apparatus to characterize the noise performance of an Er-fiber optical frequency comb (OFC) and analyze the origin of dominant noise sources. Moreover, this apparatus provides a powerful tool for diagnosing noise dynamics intrinsic in mode-locked lasers and OFCs. To this end, we uncover the anti-correlation between frep and fceo noise as well as the impact of servo loops on noise characteristics in the stabilized OFC.
A simple and practical apparatus enabling repetition rate ( f rep ) noise, carrier-envelope frequency ( f ceo ) noise and n th optical comb mode ( ν n ) noise spectra measurements with high precision is established. The f rep and ν n noise spectra are measured by a fiber delay line interferometer, while f ceo noise spectrum is measured by an f-2f interferometer. We utilize this apparatus to characterize the noise performance of an Er-fiber optical frequency comb (OFC) and analyze the origin of dominant noise sources. Moreover, this apparatus provides a powerful tool for diagnosing noise dynamics intrinsic in mode-locked lasers and OFCs. To this end, we uncover the anti-correlation between f rep and f ceo noise as well as the impact of servo loops on noise characteristics in the stabilized OFC.
Author Song, Youjian
Kwon, Dohyeon
Li, Runmin
Hu, Minglie
Tian, Haochen
Kim, Jungwon
Zhao, Yuwei
Yang, Wenkai
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Snippet A simple and practical apparatus enabling repetition rate (frep) noise, carrier-envelope frequency (fceo) noise and n optical comb mode (νn) noise spectra...
A simple and practical apparatus enabling repetition rate ( f rep ) noise, carrier-envelope frequency ( f ceo ) noise and n th optical comb mode ( ν n ) noise...
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StartPage 9232
Title Optical frequency comb noise spectra analysis using an asymmetric fiber delay line interferometer
URI https://www.ncbi.nlm.nih.gov/pubmed/32225534
https://search.proquest.com/docview/2384842624
Volume 28
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