• DocumentCode
    1400244
  • Title

    20 Tbit/s Transmission Over 6860 km With Sub-Nyquist Channel Spacing

  • Author

    Cai, Jin-Xing ; Davidson, Carl R. ; Lucero, Alan ; Zhang, Hongbin ; Foursa, Dmitri G. ; Sinkin, Oleg V. ; Patterson, William W. ; Pilipetskii, Alexei N. ; Mohs, Georg ; Bergano, Neal S.

  • Author_Institution
    TE Subsea Commun. LLC, Eatontown, NJ, USA
  • Volume
    30
  • Issue
    4
  • fYear
    2012
  • Firstpage
    651
  • Lastpage
    657
  • Abstract
    We demonstrate that channel spacing can be reduced to values smaller than the Nyquist channel spacing over transoceanic distance. Modulation memory induced by constrained transmitter bandwidth together with multisymbol detection can reduce intersymbol interference for systems with sub-Nyquist channel spacing. We transmit 198 × 100 G bandwidth constrained polarization-division-multiplexed return-to-zero quaternary phase shift keying channels with 400% spectral efficiency over 6860 km using 52 km spans of 150 μ m2 fiber and simple single-stage erbium-doped fiber amplifiers without any Raman amplification. We also show that 100 G coherent nonlinear performance scales differently with distance on uncompensated dispersion maps compared with direct detection transmission.
  • Keywords
    erbium; intersymbol interference; optical fibre amplifiers; optical fibre communication; phase shift keying; bandwidth constrained polarization-division-multiplexed return-to-zero quaternary phase shift keying channels; bit rate 20 Tbit/s; coherent nonlinear performance; constrained transmitter bandwidth; direct detection transmission; distance 6860 km; intersymbol interference; modulation memory; multisymbol detection; single-stage erbium-doped fiber amplifiers; spectral efficiency; sub-Nyquist channel spacing; transoceanic distance; uncompensated dispersion maps; Bandwidth; Maximum likelihood estimation; Optical fiber amplifiers; Optical fiber dispersion; Phase shift keying; Coherent communications; interchannel interference; intersymbol interference (ISI); maximum a posteriori probability (MAP) detection; maximum likelihood sequence estimation (MLSE); optical fiber communications; phase-shift keying (PSK); polarization-division multiplexing (PDM); wavelength division multiplexing (WDM);
  • fLanguage
    English
  • Journal_Title
    Lightwave Technology, Journal of
  • Publisher
    ieee
  • ISSN
    0733-8724
  • Type

    jour

  • DOI
    10.1109/JLT.2011.2179975
  • Filename
    6105496