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Physics of solid-state lasers [electronic resource] / V.V. Antsiferov and G.I. Smirnov.

By: Contributor(s): Material type: TextTextPublication details: Cambridge : Cambridge International Science Pub., 2005.Description: 1 online resourceISBN:
  • 1423748069 (electronic bk.)
  • 9781423748069 (electronic bk.)
  • 1904602487
  • 9781904602484
  • 9781898326175
  • 1898326177
  • 1280231483
  • 9781280231483
Subject(s): Genre/Form: Additional physical formats: Print version:: Physics of solid-state lasers.DDC classification:
  • 621.3661 22
LOC classification:
  • TA1705 A58 2005eb
Online resources:
Contents:
Cover; Contents; Preface; Introduction; 1. Solid-state chromium lasers in free lasing regime; 2. Solid-state neodymium lasers in free lasing regime; 3. Generation of powerful single-frequency giant radiation pulses in solid-state lasers; 4. Lasing of stable supershort radiation pulses in solid-state lasers; 5. Increasing the lasing efficiency of solid-state lasers; 6. Principles of lasing of solid-state lasers; 7. Stochastic and transition processes in solid-state lasers; References; Index;
Summary: The authors examine the processes of interaction of coherent radiation with solids, physical relationships governing lasing in dielectric crystals and glasses, activated by luminescent impurities. Solid-state lasers on crystals and glass are used most extensively in science and technology, because of their compact form, durability and a number of unique radiation parameters.
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Includes bibliographical references and index.

Cover; Contents; Preface; Introduction; 1. Solid-state chromium lasers in free lasing regime; 2. Solid-state neodymium lasers in free lasing regime; 3. Generation of powerful single-frequency giant radiation pulses in solid-state lasers; 4. Lasing of stable supershort radiation pulses in solid-state lasers; 5. Increasing the lasing efficiency of solid-state lasers; 6. Principles of lasing of solid-state lasers; 7. Stochastic and transition processes in solid-state lasers; References; Index;

The authors examine the processes of interaction of coherent radiation with solids, physical relationships governing lasing in dielectric crystals and glasses, activated by luminescent impurities. Solid-state lasers on crystals and glass are used most extensively in science and technology, because of their compact form, durability and a number of unique radiation parameters.

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