Practical optics
Practical Optics bridges the gap between what students learn in optical engineering curricula and the problems they realistically will face as optical engineering practitioners, in a variety of high-tech industries. A broad range of topics from modern optical engineering are addressed, ranging from...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Burlington, MA :
Elsevier Academic Press
c2004.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627285306719 |
Tabla de Contenidos:
- Front Cover; Practical Optics; Copyright Page; Contents; Preface; Chapter 1. Geometrical Optics in the Paraxial Area; 1.1. Ray Optics Conventions and Practical Rules. Real and Virtual Objects and Images; 1.2. Thin Lenses Layout. Microscope and Telescope Optical Configurations; 1.3. Diaphragms in Optical Systems. Calculation of Aperture Angle and Field of View. Vignetting; 1.4. Prisms in Optical Systems; 1.5. Solutions to Problems; Chapter 2. Theory of Imaging; 2.1. Optical Aberrations; 2.2. Diffraction Effects and Resolution; 2.3. Image Evaluation; 2.4. Two Special Cases
- 2.5. Solutions to ProblemsChapter 3. Sources of Light and Illumination Systems; 3.1. Thermal Radiation Sources for Visible and IR; 3.2. Lens-based Illumination Systems; 3.3. Lasers; 3.4. Light Emitting Diodes (LEDs); 3.5. Solutions to Problems; Chapter 4. Detectors of Light; 4.1. Classification of Radiation Detectors and Performance Characteristics; 4.2. Noise Consideration; 4.3. Single Electro-optical Detectors (Photocells, Photomultipliers, Semiconductor Detectors, Bolometers); 4.4. Detector Arrays (One-dimensional Arrays and CCD and CMOS Area Sensors); 4.5. Solutions to Problems
- Chapter 5. Optical Systems for Spectral Measurements5.1. Spectral Properties of Materials and Spectral Instruments; 5.2. Prism-based Systems; 5.3. Diffraction Gratings and Grating-based Systems; 5.4. Interferometry-based Spectral Instruments; 5.5. Spectrophotometry; 5.6. Solutions to Problems; Chapter 6. Non-contact Measurement of Temperature; 6.1. Thermal Radiation Laws and Surface Properties; 6.2. Optical Methods of Temperature Measurement; 6.3. Measurement of Temperature Gradients; 6.4. Solutions to Problems; Chapter 7. Optical Scanners and Acousto-optics; 7.1. Electro-mechanical Scanners
- 7.2. Acousto-optics and Acousto-optical Scanners7.3. Solutions to Problems; Chapter 8. Optical Systems for Distance and Size Measurements; 8.1. Laser Rangefinders; 8.2. Size Measurement with a Laser Scanner; 8.3. Interferometric Configuration; 8.4. Stratified Light Beam and Imaging Measuring Technique; 8.5. Solutions to Problems; Chapter 9. Optical Systems for Flow Parameter Measurement; 9.1. Principles of Laser Doppler Velocimetry (LDV); 9.2. Measurement of Velocity in 2-D and 3-D Flow Geometry; 9.3. Two-phase Flow and Principles of Particle Sizing; 9.4. Solutions to Problems
- Chapter 10. Color and its Measurement10.1. Color Sensation, Color Coordinates, and Photometric Units; 10.2. Color Detection and Measurement; 10.3. Solutions to Problems; References; Appendices; Appendix 1. Physical Constants; Appendix 2. Selected Data for Schott Optical Glasses; Appendix 3. Black Body Radiation; Appendix 4. Emissivity of Selected Materials; Index
