Title :
Transmission of High-Baud PDM-64QAM Signals
Author :
Wei-Ren Peng ; Tsuritani, Takehiro ; Morita, Itsuro
Author_Institution :
KDDI R&D Labs. Inc., Fujimino, Japan
Abstract :
In this paper we demonstrate high-baud generation and transmission of PDM-64QAM signals. The 64QAM signal is generated using one single in-phase/quadrature (I/Q) modulator driven with eight-level signals synthesized by all binary electrical inputs. With hard-decision forward error correction (HD-FEC), we first demonstrate 11.2-GBd and 22.4-GBd PDM-64QAM transmissions over 320-km standard single mode fiber (SSMF). Then we specifically introduce a long memory filter (LMF) and prove its effectiveness in reflection compensation both theoretically and experimentally. With the aid of soft-decision FEC (SD-FEC), optical pre-shaping, and LMF, we transmit a 41.4-GBd PDM-64QAM signal over 1200-km SSMF. Finally, using per-channel 41.6-GBd PDM-64QAM with SD-FEC, we successfully demonstrate 50-GHz-spaced, 8 × 499-Gb/s transmission over 720-km SSMF. This is the first demonstration of 400-Gb/s/ch WDM transmission on the 50-GHz ITU grid that uses a per-channel single-carrier scheme.
Keywords :
forward error correction; optical communication; wavelength division multiplexing; HD-FEC; I/Q modulator; LMF; PDM-64QAM signal; SD-FEC; SSMF; WDM transmission; frequency 50 GHz; hard-decision forward error correction; high-baud generation; long memory filter; one single in-phase modulator; optical preshaping; quadrature modulator; reflection compensation; soft-decision FEC; standard single mode fiber; Bandwidth; Bit error rate; Noise; Optical attenuators; Optical noise; Optical transmitters; Receivers; 400-Gb/s Ethernet (400 GbE); Modulation format; optical communications; polarization division multiplexing (PDM); quadrature amplitude modulation (QAM);
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2264092
