Coherent optical communications and photonic switching : proceedings of the Fourth Tirrenia International Workshop on Digital Communications, Tirrenia, Italy, September 19-23, 1989
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Bibliographic Information
Coherent optical communications and photonic switching : proceedings of the Fourth Tirrenia International Workshop on Digital Communications, Tirrenia, Italy, September 19-23, 1989
Elsevier, 1990
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
Photonic switching is a term used to describe existing and new photonic devices in conjunction with existing and new electronic devices to realise new or improved switching and networking capabilities. It includes simple mechanically activated optical switches used for network protection switching and network reconfiguration, where an entire optical signal is redirected as a unit. It includes the use of optical interconnections within equipment to facilitate internal high speed and high density interconnects. It includes the use of tunable transmitters and receivers at the core of a high speed packet or circuit switch, with large quantities of electronics providing supporting interface and control functions. In principle it also includes the concept of an all-optical switch whose architecture and component technologies have yet to be invented. In recent years materials and device scientists have been coming together more and more with systems architects to uncover the real opportunity areas for coherent communications and photonic switching.
Table of Contents
Parts 1. Coherent Optical Communication Techniques and Technologies. Recent status of coherent lightwave technologies for high-speed long-haul and FDM transmission (T. Sugie, K. Nosu). Modulation and demodulation techniques in coherent lightwave communications (H. Kuwahara et al.). Considerations for field deployment of coherent systems (M.C. Brain). Recent trends in coherent optical fiber communications research with emphasis on diversity-type receiving techniques (T. Okoshi). Lasers for coherent systems (D. Campi et al.). Progress in optical amplifiers (M.J. O'Mahony). Recent developments in coherent transmission systems for application to submarine cable systems (S. Ryu et al.). 2. Coherent Optical Communication Theory. Introduction to the effect of phase noise on coherent optical systems (I. Garrett). The detection and analysis of coherent lightwave signals corrupted by laser phase noise (G. Vannucci et al.). Impact of phase noise on coherent systems: A Fokker-Plank approach (G. Jacobsen, I. Garrett). A coherent phase-diversity optical receiver with double frequency conversion (G. Vannucci). Channel spacing in coherent optical transmission systems (L. Kazovsky). Analysis of intermodulation distortion in travelling wave semiconductor laser amplifiers (T.G. Hodgkinson, R.P. Webb). Quantum state control and non-demolition detection of photons (N. Imoto). 3. Optical Multiaccess Networks. Coherent optical FDM broadcasting system with optical amplifier (K. Emura et al.). Coherent multichannel experiments (B.N. Strebel). Does coherent optical communication have a place in computer networks? (P.E. Green, R. Ramaswami). Combined spectral and spatial multiplexing schemes for switching networks (D.W. Smith). Research on coherent optical LANs (A. Fioretti et al.). Optically-processed control of photonic switches (P.R. Pracnal, P.A. Perrier). An integrated-services digital access fiber optic broadband local area network with optical processing (M.A. Santoro). 4. Photonic Switching. Review of photonic switching device technology (A. Marrakchi et al.). Photonic switching using tunable optical terminals (K.Y. Eng). Photonic switching: A role for sophisticated optical interconnects? (J.E. Midwinter). Photonic switching capacity expansion schemes (M. Sakaguchi, M. Fujiwara). Photonic switching systems using coherent optical transmission technologies (M. Fujiwara et al.).
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