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This new Fifth Edition of Principles of Lasers incorporates corrections to the previous edition. The text's essential mission remains the same: to provide a wide-ranging yet unified description of laser behavior, physics, technology, and current applications. Dr. Svelto emphasizes the physical rather than the mathematical aspects of lasers, and presents the subject in the simplest terms compatible with a correct physical understanding. TOC:Introductory Concepts.- Interaction of Radiation with Atoms and Ions.- Energy Levels, Radiative, and Nonradiative Transitions in Molecules and Semiconductors.- Ray and Wave Propagation Through Optical Media.- Passive Optical Resonators.- Pumping Processes.- Continuous Wave Laser Behavior.- Transient Laser Behavior.- Solid-State, Dye, and Semiconductor Lasers.- Gas, Chemical, Free Electron, and X-Ray Lasers.- Properties of Laser Beams.- Laser Beam Transformation: Propagation, Amplification, Frequency Conversion, Pulse Compression, and Pulse Expansion.- Appendixes: Semiclassic Treatment of the Interaction of Radiation and Matter.- Line Shape Calculation for Collision Broadening.- Simplified Treatment of Amplified Spontaneous Emission.- Calculating Radiative Transition Rates of Molecular Transitions.- Space-Dependent Rate Equations.- Mode-Locking Theory: Homogeneous Line.- Propagation of a Laser Through a Dispersive Medium or a Gain Medium.- Higher Order Coherence.- Physical Constants and Useful Conversion Factors.- Answers to Selected Problems.- Index.
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This new Fifth Edition of Principles of Lasers incorporates corrections to the previous edition. The text's essential mission remains the same: to provide a wide-ranging yet unified description of laser behavior, physics, technology, and current applications. Dr. Svelto emphasizes the physical rather than the mathematical aspects of lasers, and presents the subject in the simplest terms compatible with a correct physical understanding. TOC:Introductory Concepts.- Interaction of Radiation with Atoms and Ions.- Energy Levels, Radiative, and Nonradiative Transitions in Molecules and Semiconductors.- Ray and Wave Propagation Through Optical Media.- Passive Optical Resonators.- Pumping Processes.- Continuous Wave Laser Behavior.- Transient Laser Behavior.- Solid-State, Dye, and Semiconductor Lasers.- Gas, Chemical, Free Electron, and X-Ray Lasers.- Properties of Laser Beams.- Laser Beam Transformation: Propagation, Amplification, Frequency Conversion, Pulse Compression, and Pulse Expansion.- Appendixes: Semiclassic Treatment of the Interaction of Radiation and Matter.- Line Shape Calculation for Collision Broadening.- Simplified Treatment of Amplified Spontaneous Emission.- Calculating Radiative Transition Rates of Molecular Transitions.- Space-Dependent Rate Equations.- Mode-Locking Theory: Homogeneous Line.- Propagation of a Laser Through a Dispersive Medium or a Gain Medium.- Higher Order Coherence.- Physical Constants and Useful Conversion Factors.- Answers to Selected Problems.- Index.
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