Research Catalog

Semiconductor Raman lasers

Title
Semiconductor Raman lasers / Ken Suto, Jun-ichi Nishizawa.
Author
Suto, Ken.
Publication
Boston : Artech House, ©1994.

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TextUse in library TA1700 .S88 1994Off-site

Details

Additional Authors
Nishizawa, Junʼichi.
Description
ix, 226 pages : illustrations; 24 cm
Series Statement
Artech House optoelectronics library.
Uniform Title
Artech House optoelectronics library.
Subject
  • Semiconductor lasers
  • Laser communication systems
  • Raman effect
  • Brillouin scattering
  • Brillouin scattering
  • Laser communication systems
  • Raman effect
  • Semiconductor lasers
  • Raman-Effekt
  • Halbleiterlaser
  • Raman-Laser
  • Brillouin-Streuung
  • Lasers à semiconducteurs
  • Systèmes de communication à laser
  • Raman, Effet
  • Brillouin, Effet
Bibliography (note)
  • Includes bibliographical references and index.
Contents
Ch. 1. Introduction. 1.1. Semiconductor Raman Lasers for Optical Communications. 1.2. History of Studies of Raman and Brillouin Lasers. 1.3. Components and Systems in Wideband Optical Communications -- Ch. 2. Principles of Raman Laser Operation. 2.1. Lattice Vibration in Semiconductors. 2.2. Raman Scattering. 2.3. Light Amplification by Stimulated Raman Scattering. 2.4. Optical Fields in the Resonator and the Output Power. 2.5. Raman Amplification in Optical Fiber -- Ch. 3. Bulk Semiconductor Raman Laser. 3.1. Fundamental Characteristics of the Semiconductor Raman Laser. 3.2. Internal Loss Mechanisms in the GaP Raman Laser. 3.3. Homoepitaxial GaP Raman Laser. 3.4. Regenerative Amplification. 3.5. Modulation of the Semiconductor Raman Laser. 3.6. Parametric Gain of the Polariton Mode. 3.7. Generation of Far-Infrared Radiation -- Ch. 4. Semiconductor Brillouin Laser. 4.1. Principle of the Stimulated Brillouin Scattering. 4.2. Experiments on the Semiconductor Brillouin Laser. 4.3. Fiber Brillouin Laser -- Ch. 5. Heterostructure Raman Laser. 5.1. Fundamentals of the Heterostructure Raman Laser. 5.2. Buried Waveguide Raman Laser with Multimode Pumping. 5.3. Raman Laser Pumped with a Fundamental Mode. 5.4. Raman Laser at Shorter Wavelengths. 5.5. Tapered-Waveguide Raman Laser -- Ch. 6. Fabrication Method of the Semiconductor Waveguide. 6.1. Principle of Stoichiometry -- Controlled Liquid Phase Epitaxy. 6.2. Al[subscript x]Ga[subscript l-x]P-GaP Heteroepitaxy. 6.3. Free Carriers and Deep Levels in the Grown Layers. 6.4. Dry Etching Technique for the Waveguide Fabrication -- Ch. 7. Amplification and Demodulation in Wideband Optical Communication. 7.1. Fiber Amplifiers. 7.2. Laser Diode Amplifier. 7.3. Demodulation by the Raman Laser in Wideband Optical Communication -- Ch. 8. Future of the Semiconductor Raman Laser. 8.1. High-Coherency Nature of the Raman Oscillator. 8.2. Lightwave Mixing in the Raman Waveguide. 8.3. Materials and Fabrication Techniques for the Raman Laser.
ISBN
  • 0890066671
  • 9780890066676
LCCN
94021067
OCLC
  • ocm30663783
  • 30663783
  • SCSB-9201514
Owning Institutions
Princeton University Library