• Electronics Optics & Control
  • Vol. 29, Issue 12, 66 (2022)
GONG Yi1, LIU Fang2, and MENG Fanke3
Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    DOI: 10.3969/j.issn.1671-637x.2022.12.012 Cite this Article
    GONG Yi, LIU Fang, MENG Fanke. Artificial Bee Colony Algorithm Based Second-Order Bidirectional Multi-pumping Raman Fiber Amplifier[J]. Electronics Optics & Control, 2022, 29(12): 66 Copy Citation Text show less
    References

    [1] KRZCZANOWICZ L,IQBAL M A,PHILLIPS I D,et al.High capacity wideband discrete Raman amplifiers: progress,challenges,and future prospects[C]//The 22nd International Conference on Transparent Optical Networks (ICTON).Bari:IEEE,2020.doi:10.1109/ICTON51198.2020.9203394.

    [2] RENAUDIER J,GHAZISAEIDI A.Scaling capacity growth of fiber-optic transmission systems using 100+ nm ultra-wideband semiconductor optical amplifiers[J].Journal of Lightwave Technology,2019,37(8):1831-1838.

    [3] HAMAOKA F,NAKAMURA M,OKAMOTO S,et al.Ultra-wideband WDM transmission in S-,C-,and L-Bands using signal power optimization scheme[J].Journal of Lightwave Technology,2019,37(8):1765-1771.

    [4] IONESCU M,LAVERY D,EDWARDS A,et al.74.38 Tb/s transmission over 6300 km single mode fiber with hybrid EDFA/Raman amplifiers[C]//Optical Fiber Communications Conference and Exhibition (OFC).San Diego,CA:OFC,2019:18618821.

    [5] RENAUDIER J,ARNOULD A,LE GAC D ,et al.107 Tb/s transmission of 103-nm bandwidth over 3×100 km SSMF using ultra-wideband hybrid Raman/SOA repeaters[C]//Optical Fiber Communications Conference and Exhibition (OFC).San Diego,CA:OFC,2019:18618326.

    [6] BORRACCINI G,STRAULLU S,FERRARI A,et al.Flexible and autonomous multi-band Raman amplifiers[C]//IEEE Photonics Conference (IPC) .Vancouver,BC:IEEE, 2020.doi:10.1109/IPC47351.2020.9252432.

    [8] GONG J M,ZHAO Y,ZUO X,et al.Numerical study of raman fiber amplifier based on cascading As-S fiber and As-Se fiber[J].Optical Review,2015,22:483-488.

    [10] SHPOLYANSKIY Y A,KOZLOV S A,BESPALOV V G.Stimulated Raman scattering and four wave mixing with self-phase and cross-phase modulation of intense fs laser pulses[C]//Technical Digest.Summaries of Papers Presented at the Quantum Electronics and Laser Science Conference.Baltimore MD,IEEE,1992.doi:10.1109/QELS.1999.807414.

    [11] WEN S,CHI S.Distributed erbium-doped fiber amplifiers with stimulated Raman scattering[J].IEEE Photonics Technology Letters,1992,4(2):189-192.

    [12] GONG J M,FANG Q,LIU J,et al.The effect of SRS on signal power in single mode silica fiber in DWDM optical communication system with equally spaced channels[J].Chinese Journal of Lasers B,1999,B8(6):51-54.

    [13] GONG J M,FANG Q,LIU J,et al.Analytical model of non-dispersion-limited transient stimulated Raman scattering in single-mode silica fiber in WDM optical communication system[J].Chinese Journal of Lasers B,1999, B9(2):175-181.

    [16] LIU K,WANG C F,LIU S Y.Artificial bee colony algorithm combined with previous successful search experience[J].IEEE Access,2019,7:34318-34332.

    [18] AKHLAGHI M,EMAMI F.Fuzzy adaptive modified PSO-algorithm assisted to design of photonic crystal fiber Raman amplifier[J].Journal of the Optical Society of Korea, 2013,17(3):237-241.

    GONG Yi, LIU Fang, MENG Fanke. Artificial Bee Colony Algorithm Based Second-Order Bidirectional Multi-pumping Raman Fiber Amplifier[J]. Electronics Optics & Control, 2022, 29(12): 66
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