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Multi–Band Programmable Gain Raman Amplifier

Uiara Celine de Moura, Md Asif Iqbal, Morteza Kamalian, Lukasz Krzczanowicz, Francesco Da Ros, Ann Margareth Rosa Brusin, Andrea Carena, Wladek Forysiak, Sergei Turitsyn, Darko Zibar

2020Journal of Lightwave Technology58 citationsDOIOpen Access PDF

Abstract

Optical communication systems, operating in C-band, are reaching their theoretically achievable capacity limits. An attractive and economically viable solution to satisfy the future data rate demands is to employ the transmission across the full low-loss spectrum encompassing O, E, S, C, and L band of the single mode fibers (SMF). Utilizing all five bands offers a bandwidth of up to ~53.5 THz (365 nm) with loss below 0.4 dB/km. A key component in realizing multi-band optical communication systems is the optical amplifier. Apart from having an ultra-wide gain profile, the ability of providing arbitrary gain profiles, in a controlled way, will become an essential feature. The latter will allow for signal power spectrum shaping which has a broad range of applications such as the maximization of the achievable information rate x distance product, the elimination of static and lossy gain flattening filters (GFF) enabling a power efficient system design, and the gain equalization of optical frequency combs. In this paper, we experimentally demonstrate a multi-band (S+C+L) programmable gain optical amplifier using only Raman effects and machine learning. The amplifier achieves >1000 programmable gain profiles within the range 3.5 to 30 dB, in an ultra-fast way and a very low maximum error of 1.6 · 10 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">-2</sup> dB/THz over an ultra-wide bandwidth of 17.6-THz (140.7-nm).

Topics & Concepts

Bandwidth (computing)Optical amplifierElectronic engineeringAmplifierOptical performance monitoringOptical communicationComputer scienceOpen-loop gainLossy compressionOptical fiberCommunications systemOptical filterTransmission (telecommunications)Optical switchMultiplexingFiber-optic communicationWavelength-division multiplexingOptical cross-connectTransmission systemFully differential amplifierOptical communications repeaterAutomatic gain controlPower gainOptical powerOut-of-band managementEqualization (audio)OpticsOptical transistorSingle-mode optical fiberFlatteningSignal processingPower (physics)Data transmissionDynamic rangeEngineeringElectrical engineeringProgrammable-gain amplifierDistributed amplifierOptical Network TechnologiesAdvanced Photonic Communication SystemsPhotonic Crystal and Fiber Optics