This work provides the necessary theory, background and practical information for a study of wavelength division multiplexing (WDM). It describes the main characteristics of the components and of networks using WDM; covers the topics of optical amplification, soliton multiplexing and the use of neural networks in optical multiplexing; covers WDM limitations and applications; provides detailed analysis of theoretical and practical limitations of WDM including nonlinear effects and uncertainty relationships in optical ...
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This work provides the necessary theory, background and practical information for a study of wavelength division multiplexing (WDM). It describes the main characteristics of the components and of networks using WDM; covers the topics of optical amplification, soliton multiplexing and the use of neural networks in optical multiplexing; covers WDM limitations and applications; provides detailed analysis of theoretical and practical limitations of WDM including nonlinear effects and uncertainty relationships in optical multiplexing; covers LED slicing and fibre-coupled devices; and includes formulas, many with a detailed demonstration and practical examples.
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