High-capacity transmission with homogeneous multi-core fibers and wideband optical comb sources

B. J. Puttnam; R. S. Luís; G. Rademacher; J. Sakaguchi; Y. Awaji; N. Wada; J. Marciante; B. P. P. Kuo; S. Radic

doi:10.1117/12.2295673

29 January 2018 High-capacity transmission with homogeneous multi-core fibers and wideband optical comb sources

B. J. Puttnam, R. S. Luís, G. Rademacher, J. Sakaguchi, Y. Awaji, N. Wada, J. Marciante, B. P. P. Kuo, S. Radic

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Proceedings Volume 10561, Next-Generation Optical Communication: Components, Sub-Systems, and Systems VII; 105610C (2018) https://doi.org/10.1117/12.2295673
Event: SPIE OPTO, 2018, San Francisco, California, United States

Abstract

We describe a number of experiments demonstrating and exploring the potential of combing wideband-optical comb sources with space-division multiplexed transmission systems and in particular with homogeneous-single-mode multicore fibers including Pb/s transmission using conventional receiver technology without MIMO processing and longdistance recirculating transmission. We describe experiments using synchronized parallel transmission loops to investigate joint processing of spatial super channels and multi-dimensional modulation before discussing how optical comb technology may combine with SDM fibers to allow comb re-generation across networks to enable high-order modulation with simplified DSP. Overall, these experiments demonstrate a range of scenarios where the combination of optical combs and homogeneous MCFs can be advantageous in future optical communications networks.

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B. J. Puttnam, R. S. Luís, G. Rademacher, J. Sakaguchi, Y. Awaji, N. Wada, J. Marciante, B. P. P. Kuo, and S. Radic "High-capacity transmission with homogeneous multi-core fibers and wideband optical comb sources", Proc. SPIE 10561, Next-Generation Optical Communication: Components, Sub-Systems, and Systems VII, 105610C (29 January 2018); https://doi.org/10.1117/12.2295673

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