10.16-Peta-B/s Dense SDM/WDM Transmission Over 6-Mode 19-Core Fiber Across the C+L Band

10.16-Peta-B/s Dense SDM/WDM Transmission Over 6-Mode 19-Core Fiber Across the C+L Band

Space-division multiplexing (SDM) is an attractive technique for dramatically enhancing the transmission capacity in a single optical fiber. Recently, ultradense SDM transmission experiments with a spatial multiplicity of over 100 have been reported by using few mode multicore fibers (FM-MCFs). Cons...

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Veröffentlicht in:Journal of lightwave technology 2018-03, Vol.36 (6), p.1362-1368
Hauptverfasser: Soma, Daiki, Wakayama, Yuta, Beppu, Shohei, Sumita, Seiya, Tsuritani, Takehiro, Hayashi, Tetsuya, Nagashima, Takuji, Suzuki, Masato, Yoshida, Masato, Kasai, Keisuke, Nakazawa, Masataka, Takahashi, Hidenori, Igarashi, Koji, Morita, Itsuro, Suzuki, Masatoshi
Format: Artikel
Sprache:eng
Schlagworte:
Few-mode fiber (FMF)
Frequency measurement
high-capacity transmission
L-band
mode-division multiplexing (MDM)
multi-core fiber (MCF)
Multiplexing
Optical fiber communication
Optical fiber polarization
space-division multiplexing (SDM)
Transmission line measurements
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Zusammenfassung:Space-division multiplexing (SDM) is an attractive technique for dramatically enhancing the transmission capacity in a single optical fiber. Recently, ultradense SDM transmission experiments with a spatial multiplicity of over 100 have been reported by using few mode multicore fibers (FM-MCFs). Considering the maximum capacity of around 100 Tb/s reported in single-mode single-core fiber transmission experiments, the capacity in FM-MCF transmission with more than 100 spatial channels is expected to reach 10 peta-b/s; however, the maximum capacity has been limited to 2 peta-b/s. In this paper, we demonstrate ultradense SDM transmission of 739 WDM 12-Gbd dual polarization-64-quadrature amplitude modulation (QAM)/16-QAM signals over 11.3-km 6-mode 19-core fiber using the C+L band, achieving a record fiber capacity of 10.16 peta-b/s with an aggregate spectral efficiency of 1099.9 b/s/Hz.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2018.2799380