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Diffraction coherence in optics,
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés Francés |
| Publicado: |
Oxford, New York,
Pergamon Press
[1966]
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| Edición: | [1st ed.]. |
| Colección: | Commonwealth and international library. Physics division.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Diffraction: Coherence in Optics; Copyright Page; Table of Contents; Preface; CHAPTER I. Huygens' Principle and Diffraction Phenomena for a Monochromatic Point Source; 1.1 Diffraction at infinity and at a finite distance; 1.2 Light vibrations; 1.3 The Huygens-Fresnel principle; 1.4 Simplified expressions for the field; 1.5 Calculation of the path difference; 1.6 The general expression for the luminous intensity at P'; CHAPTER II. Diffraction by an Aperture of Simple Form; 2.1 Diffraction by a rectangular aperture; 2.2 Diffraction by a narrow slit.
- 4.2 Diffraction by a large number of apertures, identical in shape and orientation, irregularly distributed over the diaphragm4.3 Complementary screens. Babinet's theorem; 4.4 Diffraction by two identical slits; 4.5 Diffraction by three identical slits; 4.6 Diffraction by many slits; CHAPTER V. Extended Luminous Sources and Objects. Coherence; 5.1 Spatial coherence and time-coherence; 5.2 The relation between the length of wave trains and the spectral width of the emitted radiations. Coherence length and coherence time.
- 5.3 The vibrat�ion emitted by an atom. The variation in the complex amplitude of the vibration during a wave train5.4 The successive wave trains emitted by an atom; 5.5 Vibrations from two different atoms which radiate the same mean frequency Vo (quasi-monochromatic light); 5.6 Vibrations with different frequencies from a single atom; 5.7 Vibrations with the same frequency from a single atom; 5.8 The representation of the emission of an incoherent light source; 5.9 The influence of t�ime-coherence on diffraction phenomena. The diffraction spot in quasi-monochromatic light.
- 5.10 Spatially coherent and incoherent objects5.11 The image of an extended object illuminated with spatially incoherent light; 5.12 The image of an extended object illuminated with spatially coherent light; CHAPTER VI. Diffraction Phenomena in Perfect Optical Instruments; 6.1 Resolving power and the limit of perception in optical instruments; 6.2 Diffraction gratings; 6.3 Phase contrast; 6.4 Dark ground method; 6.5 Apodization; 6.6 Filtering spatial frequencies (incoherent object); CHAPTER VII. Diffraction Phenomena in Real Optical Instruments; 7.1 Diffraction in the case of a spherical wave.