By Stefan Wabnitz, Benjamin J. Eggleton
This ebook presents a accomplished assessment of the state-of-the paintings of optical sign processing applied sciences and units. It offers step forward options for permitting a pervasive use of optics in info communique and sign garage purposes. It provides offers optical sign processing as option to triumph over the means crunch in communique networks. The booklet content material levels from the improvement of cutting edge fabrics and units, equivalent to graphene and gradual gentle constructions, to using nonlinear optics for safe quantum info processing and overcoming the classical Shannon restrict on channel ability and microwave sign processing.
Although it holds the promise for a considerable pace development, today’s conversation infrastructure optics continues to be principally restrained to the sign delivery layer, because it lags in the back of electronics so far as sign processing is worried. this example will swap within the close to destiny because the large progress of knowledge site visitors calls for strength effective and entirely obvious all-optical networks. The ebook is written via leaders within the field.
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Additional resources for All-Optical Signal Processing: Data Communication and Storage Applications
J. Eggleton, Breakthrough switching speed with an all-optical chalcogenide glass chip: 640 Gbit/s demultiplexing. Opt. Express 17, 2182–2187 (2009) 67. E. Lamont, B. Y. Choi, S. Madden, X. J. Eggleton, Net-gain from a parametric ampliﬁer on a chalcogenide optical chip. Opt. Express 16, 20374–20381 (2008) 68. E. Lamont, B. Y. Choi, S. J. Eggleton, Supercontinuum generation in dispersion engineered highly nonlinear (gamma = 10/W/m) As(2)S(3) chalcogenide planar waveguide. Opt. Express 16, 14938–14944 (2008) 69.
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4 All-Optical Processing in Semiconductor Optical Ampliﬁers Semiconductor optical ampliﬁers (SOAs) have a long history in all-optical processing with their popularity stemming from the range and strength of nonlinear effects available; from the early commercial availability of ﬁbre pigtailed devices; from the capacity for on chip integration of multiple functions/devices; and from the potential for low power operation with net conversion gain. g. [74–81]. Here the types of nonlinear effects will be briefly reviewed, the limitations facing SOAs examined along with some of the proposed remedies and the potential limits, and the best and latest achievements briefly summarized.