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100   $a20031014d2006      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aFundamentals of laser dynamics$b[electronic resource] /$fYa.I. Khanin
210   $aCambridge, UK $cCambridge International Science Pub.$d2006
215   $a1 online resource (376 p.)
300   $aDescription based upon print version of record.
311   $a1-904602-11-8 
320   $aIncludes bibliographical references (p. 337-357) and index.
327   $aAbout the Author; Contents; Preface; 1. Quantum Oscillators: General Considerations; 1.1. Principle of Operation and Practical Implementation; 1.2. Time-Dependent Processes in Quantum Oscillators; 2. Basic Equations for the Dynamical Behaviour of Lasers; 2.1. Equations for the Electromagnetic Field; 2.2. Equations for the Dynamics of the Material; 2.3. Self-Consistent Semiclassical Set of Laser Equations; 3. Single-Mode Lasers; 3.1. Dynamical Models of Homogeneously Broadened Lasers; 3.2. Traveling-Wave Laser with Homogeneous Active Medium; 3.3. Single-Mode Standing-Wave Class B Laser
327   $a3.4. Instabilities and Chaos in a Travelling-Wave Single-Mode Laser3.5. Dynamics of Three-Level Lasers with Coherent Pumping; 3.6. Effect of Inhomogeneous Broadening on the Laser Dynamic Characteristic; 4. Multimode Lasers with Frequency-Nondegenerate Modes; 4.1. Rate Equations Model with Spatial Mode Competition and Its Time Independent; 4.2. Relaxation Oscillations as Low Frequency Normal Laser Modes; 4.3. Time-Dependent Processes; 4.4. Combination Tone Mode-Mode Coupling and Its Influence on Laser Dynamics; 4.5. Inhomogeneously Broadened Solid-State Lasers
327   $a4.6. Dynamical Instability of Steady State of a Multimode Travelling-Wave Laser (Risken-Nummedal-Graham-Haken Theory)5. Multimode Lasers with Quasi- Frequency-Degenerate Modes; 5.1 Two-Mode Class B Laser with a Fabry-Perot Resonator; 5.2 Bidirectional Class B Laser; 5.3 Vector Model of a Fibre Laser; 6. Lasers with Time-Dependent Parameters; 6.1 Lasers with Periodic Parameter Modulation; 6.2 Monotonic Adiabatic Variation of Parameters; 6.3 Mechanisms of Undamped Pulsations in Solid-State Free- Running Lasers; 7. Lasers with Nonlinear Parameters; 7.1 Laser with an Opto-Electronic Feedback
327   $a7.2 Laser with a Nonlinear Absorber7.3 Laser with a Nonlinear Dielectric; 7.4 Passive Mode Locking in Lasers; 7.5 Processes in a Traveling Wave Laser with Saturable Absorber; 8. Giant Pulse Regime (Q-Switching); 8.1 Active - Q switching; 8.2 Giant Pulse Generation with Passive Q-switching; Supplement; Notations; Glossary; References
330   $aThe book explores the current state of laser dynamics and provides reference data and basic experimental facts for old and new generation lasers. The most frequently used mathematical models are presented. The author discusses the reasons for spontaneous occurrence of pulsation of the intensity of the radiation of solid-state lasers, the influence of the nonstationary nature of parameters and non-linearity of laser elements on the generation characteristics. Special emphasis is placed on the problems of low-frequency dynamics of multimode lasers.
606   $aLasers
606   $aQuantum electronics
608   $aElectronic books.
615  0$aLasers.
615  0$aQuantum electronics.
676   $a621.366
700   $aKhanin$b I?Akov Izrailevich$0604860
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910450105403321
996   $aFundamentals of laser dynamics$92028828
997   $aUNINA