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200 1 $aTunable Lasers Handbook$fEdited by F.J. Duarte
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200 10$aTunable laser optics /$fFrancisco J. Duarte
210   $aAmsterdam ;$aBoston $cElsevier Academic Press$dc2003
215   $a1 online resource (287 p.)
300   $aDescription based upon print version of record.
311   $a0-12-222696-8 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; TUNABLE LASER OPTICS; Copyright Page; Contents; Preface; Chapter 1. Introduction to Lasers; 1.1 Introduction; 1.2 Lasers; 1.3 Excitation Mechanisms and Rate Equations; 1.4 Laser Resonators and Laser Cavities; Problems; References; Chapter 2. Dirac Optics; 2.1 Dirac Notation in Optics; 2.2 Interference; 2.3 Diffraction; 2.4 Refraction; 2.5 Reflection; 2.6 Angular Dispersion; 2.7 Dirac and the Laser; Problems; References; Chapter 3. The Uncertainty Principle in Optics; 3.1 Approximate Derivation of the Uncertainty Principle; 3.2 Applications of the Uncertainty Principle in Optics
327   $aProblemsReferences; Chapter 4. The Physics of Multiple-Prism Optics; 4.1 Introduction; 4.2 Generalized Multiple-Prism Dispersion; 4.3 Multiple-Prism Dispersion and Linewidth Narrowing; 4.4 Multiple-Prism Dispersion and Pulse Compression; 4.5 Applications of Multiple-Prism Arrays; Problems; References; Chapter 5. Linear Polarization; 5.1 Maxwell Equations; 5.2 Polarization and Reflection; 5.3 Polarizing Prisms; 5.4 Polarization Rotators; Problems; References; Chapter 6. Laser Beam Propagation Matrices; 6.1 Introduction; 6.2 ABCD Propagation Matrices; 6.3 Higher-Order Matrices; Problems
327   $aReferencesChapter 7. Pulsed Narrow-Linewidth Tunable Laser Oscillators; 7.1 Introduction; 7.2 Transverse and Longitudinal Modes; 7.3 Tunable Laser Oscillator Architectures; 7.4 Wavelength-Tuning Techniques; 7.5 Polarization Matching; 7.6 Design of Efficient Narrow-Linewidth Tunable Laser Oscillators; 7.7 Narrow-Linewidth Oscillator-Amplifiers; Problems; References; Chapter 8. Nonlinear Optics; 8.1 Introduction; 8.2 Generation of Frequency Harmonics; 8.3 Optical Phase Conjugation; 8.4 Raman Shifting; 8.5 Applications of Nonlinear Optics; Problems; References
327   $aChapter 9. Lasers and Their Emission Characteristics9.1 Introduction; 9.2 Gas Lasers; 9.3 Dye Lasers; 9.4 Solid-State Lasers; 9.5 Semiconductor Lasers; 9.6 Additional Lasers; References; Chapter 10. Architecture of N-Slit Interferometric Laser Optical Systems; 10.1 Introduction; 10.2 Optical Architecture of the N-Slit Laser Interferometer; 10.3 An Interferometric Computer; 10.4 Applications of the N-Slit Laser Interferometer; 10.5 Sensitometry; Problems; References; Chapter 11. Spectrometry and Interferometry; 11.1 Introduction; 11.2 Spectrometry; 11.3 Interferometry; Problems; References
327   $aChapter 12. Physical Constants and Optical Quantities12.1 Fundamental Physical Constants; 12.2 Conversion Quantities; 12.3 Units of Optical Quantities; 12.4 Dispersion of Optical Materials; 12.5 ?n/?T of Optical Materials; References; Appendix of Laser Dyes; Index
330   $aChapters will provide self-contained treatment of the topic as much as possible to allow the reader to go directly to the appropriate chapter to deal with a particular topic of concern. This sharp focus is necessary to maintain the emphasis, and to make this a practical reference. The knowledge and experience will integrate aspects of laser oscillators, laser amplifiers, laser systems, engineering of rugged laser cavities, design and engineering of laser-based instrumentation, and design of highly reliable laser systems for material processing applications.* Provides a sharp focus prac
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