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3 September 2003 Ultimate rate densities in optical transmission of information
Mikhail A. Khodasevich, George V. Sinitsyn, Anatoly S. Yasukevich
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Proceedings Volume 5135, Optical Information, Data Processing and Storage, and Laser Communication Technologies; (2003) https://doi.org/10.1117/12.518059
Event: International Conference on Lasers, Applications, and Technologies 2002, 2002, Moscow, Russian Federation
Abstract
Information-rate densities in optical communication systems are investigated on the base of the number-state model. Results of numerical simulation show that the considered characteristics increase monotonically with increasing signal power, reducing passband width and environment temperature. For quasi-monochromatic optical communication channels quantum-statistical peculiarities of information carriers can not be taken into account at large enough singal powers when fluctuation noise can be neglected.
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Mikhail A. Khodasevich, George V. Sinitsyn, and Anatoly S. Yasukevich "Ultimate rate densities in optical transmission of information", Proc. SPIE 5135, Optical Information, Data Processing and Storage, and Laser Communication Technologies, (3 September 2003); https://doi.org/10.1117/12.518059
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KEYWORDS
Optical communications
Terahertz radiation
Telecommunications
Interference (communication)
Numerical simulations
Channel projecting optics
Transmittance
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