Presentation 2021-10-14
[Poster Presentation] Propagation Characteristics of NRZ-DPSK Signals in Optical Delay Line Based on Wavelength Conversion by FWM and Optical Path Difference
Morito Okamoto, Mizuki Kobayashi, Naoto Kishi,
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Abstract(in Japanese) (See Japanese page)
Abstract(in English) In order to realize timing control of optical signal for photonic network, all optical variable delay line is necessary. In this report, we demonstrate an optical variable delay line based on wavelength conversion by four-wave mixing and optical path differences. For NRZ-DPSK signals, good signal delay characteristics was obtained.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Photonic network / All optical variable delay line / Four-wave mixing / Wavelength conversion / Path difference
Paper # OFT2021-38
Date of Issue 2021-10-07 (OFT)

Conference Information
Committee OFT
Conference Date 2021/10/14(2days)
Place (in Japanese) (See Japanese page)
Place (in English) Online
Topics (in Japanese) (See Japanese page)
Topics (in English)
Chair Yuji Matsuura(Tohoku Univ.)
Vice Chair
Secretary (NTT)
Assistant Yukihiro Goto(NTT) / Minoru Takahashi(Fujikura)

Paper Information
Registration To Technical Committee on Optical Fiber Technology
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) [Poster Presentation] Propagation Characteristics of NRZ-DPSK Signals in Optical Delay Line Based on Wavelength Conversion by FWM and Optical Path Difference
Sub Title (in English)
Keyword(1) Photonic network
Keyword(2) All optical variable delay line
Keyword(3) Four-wave mixing
Keyword(4) Wavelength conversion
Keyword(5) Path difference
1st Author's Name Morito Okamoto
1st Author's Affiliation University of Electro-Communications(Univ Electro Communications)
2nd Author's Name Mizuki Kobayashi
2nd Author's Affiliation University of Electro-Communications(Univ Electro Communications)
3rd Author's Name Naoto Kishi
3rd Author's Affiliation University of Electro-Communications(Univ Electro Communications)
Date 2021-10-14
Paper # OFT2021-38
Volume (vol) vol.121
Number (no) OFT-199
Page pp.pp.67-70(OFT),
#Pages 4
Date of Issue 2021-10-07 (OFT)