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David J. Richardson
Researcher at University of Southampton
Publications - 1839
Citations - 59292
David J. Richardson is an academic researcher from University of Southampton. The author has contributed to research in topics: Optical fiber & Fiber laser. The author has an hindex of 111, co-authored 1743 publications receiving 53466 citations. Previous affiliations of David J. Richardson include University of Sydney & Karlsruhe Institute of Technology.
Papers
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Space-division multiplexing in optical fibres
TL;DR: In this paper, the authors summarized the simultaneous transmission of several independent spatial channels of light along optical fibres to expand the data-carrying capacity of optical communications, and showed that the results achieved in both multicore and multimode optical fibers are documented.
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High power fiber lasers: current status and future perspectives [Invited]
TL;DR: This paper reviews the current state of the art in terms of continuous-wave and pulsed performance of ytterbium-doped fiber lasers, the current fiber gain medium of choice, and by far the most developed in Terms of high-power performance.
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Ultra-low-loss optical fiber nanotapers
TL;DR: It is shown that very-long ultra-low-loss tapers can in fact be produced using a conventional fiber taper rig incorporating a simple burner configuration, and the optical losses achieved are one order of magnitude lower than losses previously reported in the literature for tapers of a similar size.
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Enzymes and associated electron transport systems that catalyse the respiratory reduction of nitrogen oxides and oxyanions
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All-optical phase and amplitude regenerator for next-generation telecommunications systems
Radan Slavik,Francesca Parmigiani,Joseph Kakande,Carl Lundstrom,Martin Sjödin,Peter A. Andrekson,Ruwan Weerasuriya,Stylianos Sygletos,Andrew D. Ellis,Lars Gruner-Nielsen,Dan Jakobsen,Soren Herstrom,Richard Phelan,James O'Gorman,Adonis Bogris,Dimitris Syvridis,Sonali Dasgupta,Periklis Petropoulos,David J. Richardson +18 more
TL;DR: The development of the first practical ('black-box') all-optical regenerator capable of removing both phase and amplitude noise from binary phase-encoded optical communications signals is reported.