Selected papers on rare-earth-doped fiber laser sources and amplifiers
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Selected papers on rare-earth-doped fiber laser sources and amplifiers

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Published by SPIE Optical Engineering Press in Bellingham, Wash .
Written in English


  • Lasers.

Book details:

Edition Notes

Includes bibliographical references and indexes.

Other titlesRare-earth-doped fiber laser sources and amplifiers.
StatementMichel J.F. Digonnet, editor.
SeriesSPIE milestone series ;, v. MS 37
ContributionsDigonnet, Michel J. F., Society of Photo-optical Instrumentation Engineers.
LC ClassificationsTA1677 .S416 1992
The Physical Object
Paginationxxiii, 694 p. :
Number of Pages694
ID Numbers
Open LibraryOL1543172M
ISBN 100819407356, 0819407348
LC Control Number91022094

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A discussion of the theories, operating characteristics, and current technology of main fiber laser and amplifier devices based on rare-earth-doped silica and fluorozirconate fibers. It describes the principles, designs, and properties of the erbium-doped fiber amplifier and its role as the cornerstone component in optical communication systems. This book covers main fiber lasers and amplifier devices based on rare-earth-doped silicia and flourozirconate fibers. It describes the erbium-doped fiber amplifier and its role as foundational in optical communication systems. Buy Rare-Earth-Doped Fiber Lasers and Amplifiers, Revised and Expanded (Optical Science and Engineering) For experienced fiber laser scientists and engineers this is a great source of detailed facts about various fiber laser types. It is not as useful for those with little experience in fiber 3/5(1). Rare earth doped fibers (REDFs) are a key component in optical laser sources and amplifiers (REDFAs). Their high performances render them very .

rare-earth-doped fiber lasers and amplifiers digonnet In purpose though amplifiers using Praseodymium are also in use. rare-earth-doped fiber lasers and amplifiers pdf The principle of rare earth doped fiber amplifier is the same as that of lasers excepting.A fiber laser or fibre laser is a laser in which the active gainFile Size: 59KB. PROCEEDINGS VOLUME Fiber Laser Sources and Amplifiers. Editor(s): Michel J. F. Digonnet *This item is only available on the SPIE Digital Library. Fabrication Of Rare-Earth Doped Glass Fibers Author(s): Jay Simpson Show Abstract Theory Of Operation Of Three- And Four-Level Fiber Amplifiers And Sources. The luminescent properties of the rare earth-doped channel waveguides were spectroscopically analysed using end-pump configuration as described in an earlier our attention was focused on erbium-doped HMFG channel waveguides, laser diodes around μm were required both to pump at μm (up to mW) and to stimulate the emission across its broad Cited by: 7. Chapter 9 Rare Earth Doped Infrared-Transmitting Glass Fibers J. S. Sanghera, L. B. Shaw, and I. D. Aggarwal Chapter 10 Erbium-Doped Fiber Amplifiers: Basic Physics and Characteristics E. Desurvire Chapter 11 Erbium-Doped Fiber Amplifiers: Advanced Topics Paul F. Wysocki Chapter 12 µm Fiber Amplifiers Kazuo Fujiura and.

Moreover, research efforts in rare earth doped microspheres have opened novel opportunities for enhancing the amplifier and laser performance in the mid-infrared wavelength range []. Several technical revolutions over the last ten years have led to the increasing use of rare earth-doped fiber lasers and amplifiers as a key component of optical communication systems. In this chapter, we review the methods of producing these fibers and the effect of the host composition and the rare earth doping on the quality of the final Cited by: 2.   Efraín Mejía-Beltrán (February 22nd ). Rare-Earth Doped Optical Fibers, Selected Topics on Optical Fiber Technology, Moh. Yasin, Sulaiman W. Harun and Hamzah Arof, IntechOpen, DOI: / Available from:Cited by: 2. Soon after the invention of the laser, in the first rare-earth-doped laser based on a neodymium-doped glass saw the light of the day, and 3 years later the first rare-earth-doped fiber amplifier was reported. Meanwhile, the fiber amplifier is at the heart of optical communication and the internet, and high-power continuous-wave and high Cited by: 5.