Experimental Comparison of Adaptive Optics Algorithms in 10-Gb/s Multimode Fiber Systems

Experimental Comparison of Adaptive Optics Algorithms in 10-Gb/s Multimode Fiber Systems

We experimentally compare various adaptive algorithms that use a spatial light modulator (SLM) to compensate modal dispersion in 50- \mu m graded-index multimode fibers. We show that continuous-phase sequential coordinate ascent (CPSCA) gives better bit-error-ratio performance than 2- or 4-phase seq...

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Veröffentlicht in:Journal of lightwave technology 2009-12, Vol.27 (24), p.5783-5789
Hauptverfasser: Panicker, Rahul Alex, Lau, Alan Pak Tao, Wilde, Jeffrey P., Kahn, Joseph M.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive algorithm
Adaptive optics
algorithms
Applied sciences
Ascent
Bandwidth
Circuit properties
Computer simulation
Connectors
Dispersions
Electric, optical and optoelectronic circuits
Electronics
Exact sciences and technology
Fibers
Information, signal and communications theory
Integrated optics. Optical fibers and wave guides
Intersymbol interference
Multiplexing
Offsets
Optical and optoelectronic circuits
Optical fiber communications
Optical fiber dispersion
Optical fiber polarization
Optical fibers
Optical modulation
Optical noise
Optical propagation
Optical telecommunications
Phased arrays
Signal and communications theory
spatial light modulators
Systems, networks and services of telecommunications
Telecommunications
Telecommunications and information theory
Transmission and modulation (techniques and equipments)
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Beschreibung
Zusammenfassung:We experimentally compare various adaptive algorithms that use a spatial light modulator (SLM) to compensate modal dispersion in 50- \mu m graded-index multimode fibers. We show that continuous-phase sequential coordinate ascent (CPSCA) gives better bit-error-ratio performance than 2- or 4-phase sequential coordinate ascent, in concordance with simulations in . We then evaluate the bandwidth characteristics of CPSCA, and show that a single SLM is able to simultaneously compensate the modal dispersion in up to 9 wavelength-division-multiplexed 10-Gb/s channels, spaced by 50 GHz, over a total bandwidth of 450 GHz. We also show that CPSCA is able to compensate for modal dispersion in fibers up to 2.2 km long, even in the presence of midspan connector offsets up to 4 \mu m (simulated in experiment by offset splices). A known non-adaptive launching technique using a fusion-spliced single-mode-to-multimode patchcord is shown to fail under these conditions.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2009.2036683