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Optical OFDM is a promising technology for highly spectrally efficient (SE) wavelength-division-multiplexing (WDM) system. Furthermore, the bit-rate 400 Gbit/s per WDM channel with SE of 8 bit/s/Hz is expected to be adopted for the next generation WDM system. For the application, optical OFDM is one of promising candidates because of the scalability for higher SE and higher bit-rate using multi-band...
We have successfully demonstrated 3 × 458-Gbit/s Optical Multi-band OFDM transmission over 160 km of SSMF with EDFA-only amplification at 50 GHz WDM spacing by utilizing narrowband optical filter.
We have successfully demonstrated the first terabit-class WDM transmission (7 × 1.12 Tb/s PDM-16QAM) over all-EDFA 400-km standard single mode fiber (SSMF) and 2 ROADMs. Q factors larger than 9.4 dB are found for all channels.
Optical OFDM is one of promising technology to increase spectral efficiency. We explain the modulation scheme and WDM transmission experiments of 458 Gbit/s OFDM signal per WDM channel with 8 bit/s/Hz spectral efficiency.
We demonstrate a simple beat interference cancellation approach enabling higher spectral efficiency and better sensitivity (> 2 dB) for DDO-OFDM. The associated benefits of enhanced phase noise and PMD tolerances, as well as the impacts of diverse filter parameters, are also discussed.
We numerically demonstrate the first direct detection PDM-OFDM system without adaptive polarization control. We show the data on orthogonal polarizations can be well extracted under the influences of both the CD and PMD effects.
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