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Ultra-Fast Fiber Lasers

Ultra-Fast Fiber Lasers


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About the Book

Ultrashort pulses in mode-locked lasers are receiving focused attention from researchers looking to apply them in a variety of fields, from optical clock technology to measurements of the fundamental constants of nature and ultrahigh-speed optical communications. Ultrashort pulses are especially important for the next generation of ultrahigh-speed optical systems and networks operating at 100 Gbps per carrier.

Ultra Fast Fiber Lasers: Principles and Applications with MATLAB(R) Models is a self-contained reference for engineers and others in the fields of applied photonics and optical communications. Covering both fundamentals and advanced research, this book includes both theoretical and experimental results. MATLAB files are included to provide a basic grounding in the simulation of the generation of short pulses and the propagation or circulation around nonlinear fiber rings. With its unique and extensive content, this volume--

  • Covers fundamental principles involved in the generation of ultrashort pulses employing fiber ring lasers, particularly those that incorporate active optical modulators of amplitude or phase types
  • Presents experimental techniques for the generation, detection, and characterization of ultrashort pulse sequences derived from several current schemes
  • Describes the multiplication of ultrashort pulse sequences using the Talbot diffraction effects in the time domain via the use of highly dispersive media
  • Discusses developments of multiple short pulses in the form of solitons binding together by phase states
  • Elucidates the generation of short pulse sequences and multiple wavelength channels from a single fiber laser

The most practical short pulse sources are always found in the form of guided wave photonic structures. This minimizes problems with alignment and eases coupling into fiber transmission systems. In meeting these requirements, fiber ring lasers operating in active mode serve well as suitable ultrashort pulse sources. It is only a matter of time before scientists building on this research develop the practical and easy-to-use applications that will make ultrahigh-speed optical systems universally available.


About the Author:

Le Nguyen Binh received his BE (Hons) and Ph.D degrees in electronic engineering and integrated photonics in 1975 and 1980, respectively, from the University of Western Australia, Nedlands, Western Australia. In 1980, he joined the Department of Electrical Engineering at Monash University, Clayton, Victoria, Australia, after a three-year period with Commonwealth Scientific and Industrial Research Organisation (CSIRO), Camberra, Australia, as a research scientist. In 1995, he was appointed as reader at Monash University. He has worked in the Department of Optical Communications of Siemens AG Central Research Laboratories in Munich, Germany, and in the Advanced Technology Centre of Nortel Networks at Harlow, United Kingdom. He has also served as a visiting professor of the Faculty of Engineering of Christian Albrechts University of Kiel, Germany. Dr. Binh has published more than 250 papers in leading journals and refereed conferences, and three books in the field of photonic signal processing and optical communications: the first is Photonic Signal Processing, the second is Digital Optical Communications and the third on Optical Fiber Communications Systems (both published by CRC Press, Boca Raton, Florida). His current research interests are in advanced modulation formats for long haul optical transmission, electronic equalization techniques for optical transmission systems, ultrashort pulse lasers, and photonic signal processing.

Nam Quoc Ngo received his BE and PhD degrees in electrical and computer systems engineering from Monash University, Melbourne, Victoria, Australia, in 1992 and 1998, respectively. From July 1997 to July 2000, he was a lecturer at Griffith University, Brisbane, Queensland, Australia. Since July 2000, he has been with the School of Electrical and Electronic Engineering (EEE), Nanyang Technological University, Singapore, where he is presently an associate professor. Since March 2009, he has been the deputy director of the Photonics Research Centre at the School of EEE. Among his other significant contributions, he has pioneered the development of the theoretical foundations of arbitrary order temporal optical differentiators and arbitrary-order temporal optical integrators, which resulted in the creation of these two new research areas. He has also pioneered the development of a general theory of the Newton- Cotes digital integrators, from which he has designed a wideband integrator and a wideband differentiator known as the Ngo integrator and the Ngo differentiator, respectively, in the literature. His current research interests are on the design and development of fiber-based and waveguide-based devices for application in optical communication systems and optical sensors. He has published more than 110 international journal papers and over 60 conference papers in these areas. He received two awards for outstanding contributions in his PhD dissertation. He is a senior member of IEEE.


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Product Details
  • ISBN-13: 9781439811283
  • Publisher: CRC Press
  • Publisher Imprint: Crc Press
  • Depth: 32
  • Height: 233 mm
  • No of Pages: 438
  • Series Title: Optics and Photonics
  • Sub Title: Principles and Applications With MATLAB Models
  • Width: 156 mm
  • ISBN-10: 1439811288
  • Publisher Date: 19 Jul 2010
  • Binding: Hardback
  • Edition: 1
  • Language: English
  • Returnable: N
  • Spine Width: 0 mm
  • Weight: 750 gr


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