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Essentials of modern physics applied to the study of the infrared.

Essentials of Modern Physics Applied to the Study of the Infrared covers topics about the essentials of modern physics. The book starts with the situation of research into the infrared and the problems to which it gives rise, and then discusses instrumentation in the infrared: optics, sources, recei...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Hadni, Armand
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford, New York, Pergamon Press [1967]
Edición:[1st ed.].
Colección:International series of monographs in infrared science and technology ; v. 2.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Essentials of Modern Physics Applied to the Study of the Infrared; Copyright Page; Table of Contents; FOREWORD; PREFACE; ACKNOWLEDGEMENTS; INTRODUCTION. THE RISE AND INCREASING COMPLEXITY OF INFRARED RESEARCH; I. The Discovery of the Infrared; II. The Fundamental Research; III. Rapid Progress after the War; IV. The Immediate Future; CHAPTER 1. ELEMENTS OF INSTRUMENTAL OPTICS IN THE INFRARED; I. Energy Quantities Relative to Radiations; II. Radiation Dispersion; III. The Problem of Eliminating Stray Light; IV. Multiplex Spectrometry; V. Conclusion; Bibliography
  • CHAPTER 2. SOURCES OF INFRAREDI. Introduction; II. Thermal Emission; III. Mechanism of the Emission: Atomic or Molecular, Spontaneous or Stimulated; IV. Emission of Waves by Electric Circuits; V. Conclusion; Bibliography; CHAPTER 3. INFRARED DETECTORS; I. Introduction; II. Thermal Detectors; III. Quantum Detectors; IV. Crystal Detectors; V. Amplifiers, Noise Spectrum; VI. Conclusion; Bibliography; CHAPTER 4. PROPAGATION OF INFRARED IN EMPTY SPACE AND IN MATTER-MAXWELL'S EQUATIONS, LORENTZ'S THEORY; I. Introduction
  • II. The Equation of Propagation of an Electromagnetic Wave, the Search for a Plane SolutionIII. Applications; IV. Calculation of the Dielectric Constant from the Atomic Structure, Dispersion of the Index of Refraction and the Absorption Coefficient, Lorentz's Theory; V. Conclusion; Bibliography; CHAPTER 5. WAVES OF THERMAL AGITATION IN A SOLID, INTERACTIONS WITH THE INFRARED; I. Introduction; II. Einstein's Theory and Debye's Theory on the Vibrations of a Solid; III. Exact Solution for the Problem of the Natural Vibrations of a Solid
  • IV. Interactions between Electromagnetic Waves and Thermal Waves of Agitation in a Perfect CrystalV. Crystal Defects, Localized Vibrations and One-phonon Transitions; VI. Monograph of the Principal Crystals Concerning their Transmission and Reflection in the Infrared; VII. Conclusion; Bibliography; CHAPTER 6. A NEW FIELD OF RESEARCH-THE FAR INFRARED; I. Introduction; II. Instrumentation in the Far Infrared; III. Internal Molecular Vibrations of Low Frequency; IV. Pure Rotations; V. External Vibrations of Molecules; VI. Electronic Transitions in the Far Infrared
  • VII. Superconductivity in the Far InfraredVIII. Free Carriers Absorption; IX. Ferroelectricity; X. Other Types of Transitions in the Far Infrared; XI. Conclusion; Bibliography; APPENDIX; INDEX