Mixed Line-Rate Transmission (112-Gb/s, 450-Gb/s, and 1.15-Tb/s) Over 3560 km of Field-Installed Fiber With Filterless Coherent Receiver

We report the first superchannel field experiment where two multicarrier signals at 450 Gb/s and 1.15 Tb/s are copropagated with 112-Gb/s neighbors over 45 × 79.1 km spans of field-installed fiber with erbium-doped fiber amplifiers after each span. The superchannels use zero-guard interval all-optical orthogonal frequency-division multiplexing, with each optically generated subcarrier modulated by dual-polarization quadriphase-shift-keying signals (DP-QPSK). The heterogeneous data-rate channels are aggregated using wavelength selective switch in a flexible grid wavelength-division multiplexing architecture. The net spectral efficiencies of the channels vary from 2 b/s/Hz for the 112-Gb/s channels, to 3.33 b/s/Hz for the 1.15-Tb/s superchannel. We demonstrate that any of the signals can be detected using a common filterless digital coherent receiver. In particular, tuning a local oscillator laser midway between two optically generated subcarriers enables the coherent receiver (with proper signal-processing algorithm) to demodulate two subcarriers in one data capture. This allows flexible downconversion across the whole signal band. Our results show that superchannels can coexist harmoniously with 100 G DP-QPSK signals. Even though the superchannels use the same modulation format per subcarrier as the 100 G signals, the absence of guard bands enables higher spectral efficiency that is achievable with single-carrier modulation with minimal sacrifice in reach.

[1]  Ting Wang,et al.  150 Gb/s PolMUX-8PSK all-optical OFDM using digital coherent detection with modified CMA algorithm , 2009, 2009 IEEE LEOS Annual Meeting Conference Proceedings.

[2]  B. Zhu,et al.  10×456-Gb/s DP-16QAM transmission over 8×100 km of ULAF using coherent detection with a 30-GHz analog-to-digital converter , 2010, OECC 2010 Technical Digest.

[3]  B. Zhu,et al.  Transmission of a 448-Gb/s reduced-guard-interval CO-OFDM signal with a 60-GHz optical bandwidth over 2000 km of ULAF and five 80-GHz-Grid ROADMs , 2010, 2010 Conference on Optical Fiber Communication (OFC/NFOEC), collocated National Fiber Optic Engineers Conference.

[4]  E. Ip,et al.  Field experiment with mixed line-rate transmission (112-Gb/s, 450-Gb/s, and 1.15-Tb/s) over 3,560 km of installed fiber using filterless coherent receiver and EDFAs only , 2011, 2011 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference.

[5]  Nicolas K Fontaine,et al.  Tb/s Coherent Optical OFDM Systems Enabled by Optical Frequency Combs , 2010, Journal of Lightwave Technology.

[6]  William Shieh,et al.  OFDM for Optical Communications , 2009 .

[7]  T. Vallaitis,et al.  Single source optical OFDM transmitter and optical FFT receiver demonstrated at line rates of 5.4 and 10.8 Tbit/s , 2010, 2010 Conference on Optical Fiber Communication (OFC/NFOEC), collocated National Fiber Optic Engineers Conference.

[8]  William Shieh,et al.  1-Tb/s per channel coherent optical OFDM transmission with subwavelength bandwidth access , 2009, 2009 Conference on Optical Fiber Communication - incudes post deadline papers.

[9]  B. Zhu,et al.  Transmission of a 1.2-Tb/s 24-carrier no-guard-interval coherent OFDM superchannel over 7200-km of ultra-large-area fiber , 2009, 2009 35th European Conference on Optical Communication.

[10]  Bo Zhang,et al.  Real-Time Single-Carrier Coherent 100 Gb/s PM-QPSK Field Trial , 2011 .

[11]  E. Torrengo,et al.  Transoceanic PM-QPSK Terabit superchannel transmission experiments at Baud-rate subcarrier spacing , 2010, 36th European Conference and Exhibition on Optical Communication.

[12]  Arthur J. Lowery Design of Arrayed-Waveguide Grating Routers for use as optical OFDM demultiplexers. , 2010, Optics express.

[13]  J. Yu,et al.  Generation, transmission and coherent detection of 11.2 Tb/s (112×100Gb/s) single source optical OFDM superchannel , 2011, 2011 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference.

[14]  Xiang Liu,et al.  Experimental investigation on the performance of closely spaced multi-carrier PDM-QPSK with digital coherent detection. , 2009, Optics express.

[15]  Alan Pak Tao Lau,et al.  Coherent detection in optical fiber systems. , 2008, Optics express.

[16]  S. Chandrasekhar,et al.  Generation and 1,200-km transmission of 448-Gb/s ETDM 56-Gbaud PDM 16-QAM using a single I/Q modulator , 2010, 36th European Conference and Exhibition on Optical Communication.

[17]  Tiejun J. Xia,et al.  Flexible architectures for optical transport nodes and networks , 2010, IEEE Communications Magazine.