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Photonic Signal Processing

Techniques and Applications
 
Edition number: 1
Publisher: CRC Press
Date of Publication:
 
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Short description:

Spanning the current transitional period, this book addresses the merging techniques of processing and manipulating signals propagating in the optical domain. The author demonstrates the representation of photonic circuits using signal flow graph technique adapted for photonic domain. He describes differentiators and integrators and their applications for the generation of solitons, then covers the application of the solitons in optically amplified fiber transmission systems. The book illustrates the compensation dispersion and the design of optical filters using photonic processor techniques, and the filtering of microwave signals in the optical domain.

Long description:
The potential of photonic signal processing (PSP) to overcome electronic limits for processing ultra-wideband signals, provide signal conditioning that can be integrated in line with fiber optic systems, and improve signal quality makes this technology extremely attractive for improvement in receiver sensitivity performance. Spanning the current transitional period, Photonic Signal Processing: Techniques and Applications addresses the merging techniques of processing and manipulating signals propagating in the optical domain.

The book begins with a historical perspective of PSP and introduces photonic components essential for photonic processing systems, such as optical amplification devices, optical fibers, and optical modulators. The author demonstrates the representation of photonic circuits via a signal flow graph technique adapted for photonic domain. He describes photonic signal processors, such as differentiators and integrators, and their applications for the generation of solitons, and then covers the application of these solitons in optically amplified fiber transmission systems. The book illustrates the compensation dispersion using a photonic processor, the design of optical filters using photonic processor techniques, and the filtering of microwave signals in the optical domain.

Exploring methods for the processing of signals in the optical domain, the book includes solutions to photonic circuits that use signal flow techniques and significant applications in short pulse generation, the filtering of signals, differentiation, and the integration of signals. It delineates fundamental techniques on the processing of signals in the optical domain as well as their applications that lead to advanced aspects of performing generation of short pulses, integration, differentiation, and filtering for optical communications systems and networks and processing of ultra-high speed signals.

Table of Contents:
Principal Photonic Devices for Processing. Optical Fiber Communications. Photonic Signal Processors. Optical Monitors. Incoherence and Coherence in Photonic Signal Processing. Introduction. Incoherent Fiber-Optic Signal Processing. Coherent Integrated-Optic Signal Processing. Summary. Photonic Computing Processor. Incoherent Fiber-Optic Systolic Array Processors. Programmable Incoherent Newton-Cotes Optical Integrator. Higher-Derivative FIR Optical Differentiators. Appendix A: Generalized Theory of Newton-Cotes Digital Integrators. Ultra-Short Pulse Photonic Generator. Optical Dark-Solution Generator and Detectors. Mode-Locked Ultra-Short Pulse Generators. Dispersion Compensation Using Photonic Filters. Introductory Remarks. Dispersion Compensation Using Optical Resonators. Eigenfilter Design for Dispersion Compensation. Tunable Optical Filters. Introduction. Basic Structures of Tunable Optical Filters. Appendix: Fundamental Characteristics of Recursive Digital Filters.