Reconfigurable DP-16QAM/QPSK transponders for the transmission of coherent 200G carriers in a flexgrid super-channel arrangement

The next generation of Dense Wavelength Division Multiplexing (DWDM) networks are likely to use Flexgrid arrangement, providing operators with additional flexibility when assigning spectrum compared to traditional DWDM networks using the 50GHz ITU grid. Flexgrid breaks the spectrum up into small (typically 12.5GHz) slots, but its key feature is that contiguous slots can be joined together to form arbitrary sized blocks of spectrum. This additional flexibility will allow faster transponders that utilize high spectral efficiency modulation techniques, like multi-level m-QAM schemes. From the use of these new spectrum efficient modulation formats and finer control over spectrum allocations, a key benefit that Flexgrid offers to the network operators is that their DWDM networks can carry more traffic with optimized spectral efficiency. High speed technology became essential for realizing greater network capacity and enabling network operators to meet the increasing bandwidth challenges from new generation superfast devices, services and applications. Coherent technologies beyond 100G are now focusing on higher level modulation formats and multiple sub-carriers/channels, using super-channels to achieve Terabit transmission.

[1]  A. Pattavina,et al.  Routing, modulation level, and spectrum assignment in optical metro ring networks using elastic transceivers , 2013, IEEE/OSA Journal of Optical Communications and Networking.

[2]  Luis Velasco,et al.  The network capacity benefits of Flexgrid , 2013, 2013 17th International Conference on Optical Networking Design and Modeling (ONDM).

[3]  Masahiko Jinno,et al.  Elastic optical networking: a new dawn for the optical layer? , 2012, IEEE Communications Magazine.

[4]  Andrew Lord,et al.  1.4Tb real-time alien superchannel transport demonstration over 410km installed fiber link using software reconfigurable DP-16QAM/QPSK , 2014, OFC 2014.

[5]  Masahito Tomizawa,et al.  High-capacity optical transport networks , 2012, IEEE Communications Magazine.

[6]  Massimo Tornatore,et al.  Optical ring metro networks with flexible Grid and distance-adaptive optical coherent transceivers , 2013, Bell Labs Technical Journal.

[7]  A. Gnauck,et al.  Penalties from in-band crosstalk for advanced optical modulation formats , 2011, 2011 37th European Conference and Exhibition on Optical Communication.

[8]  E. Torrengo,et al.  Investigation on the robustness of a Nyquist-WDM Terabit superchannel to transmitter and receiver non-idealities , 2010, 36th European Conference and Exhibition on Optical Communication.