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[Author] Kunio KOKURA(2hit)

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  • Wide-Band High-Bit-Rate WDM Transmission Line with Medial Dispersion Fiber (MDF)

    Kazunori MUKASA  Takeshi YAGI  Kunio KOKURA  

     
    LETTER

      Vol:
    E85-B No:2
      Page(s):
    484-486

    A novel optical transmission line consisted of fibers characterized by positive and negative medial dispersion of NZ-DSF and SMF was designed and fabricated. Both P-MDF and N-MDF have achieved the medial dispersion and low non-linearity simultaneously. Total characteristics were confirmed to be suitable for the future high-bit-rate transmission.

  • Dispersion Managed Optical Transmission Lines and Fibers

    Yoshihisa SUZUKI  Kazunori MUKASA  Ryuichi SUGIZAKI  Kunio KOKURA  

     
    INVITED PAPER-Fibers

      Vol:
    E83-C No:6
      Page(s):
    789-798

    There has been a rapid advance in wavelength-division multiplexing (WDM) and high bit-rate time-division multiplexing (TDM) as techniques for coping with burgeoning demand for transmission capacity. In the past this expansion of capacity has been achieved by 2.5-Gbit/s and 10-Gbit/s WDM using the C-band (around 1550 nm), but research on the 1600-nm L-band (around 1600 nm) is being stepped up to obtain further expansion. With the achievement of 40-Gbit/s speeds, which mark the limit of electrical signal processing, optical TDM, with speeds of 100 Gbit/s, is coming into use. In this kind of high-density, high bit-rate WDM transmission, the occurrence of non-linear phenomena within optical fibers reduces transmission quality, and this raises the importance of technology for suppressing non-linearity and specifically, in the case of WDM transmission systems, of four-wave mixing (FWM). Obviously there is also the problem of signal distortion due to dispersion, so that technology for suppressing cumulative dispersion is also essential. There is also a need for transmission lines with sophisticated dispersion management over a wide band of wavelengths, and it may be consisted of novel fibers.