UID:
almahu_9948026554602882
Umfang:
1 online resource (335 p.)
Ausgabe:
1st edition
ISBN:
1-4933-0157-8
,
1-281-02002-8
,
9786611020026
,
0-08-049212-6
Inhalt:
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 geometrical optics and basic layout of electro-optical instruments, to the theory of imaging, radiation sources and radiation sensors, spectroscopy, and color vision and description of optical methods for measurements of numerous physical parameters (temperature, flow velocity, distances, roughness
Anmerkung:
Description based upon print version of record.
,
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
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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
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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
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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
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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
,
English
Weitere Ausg.:
ISBN 1-4175-4432-5
Weitere Ausg.:
ISBN 0-12-490951-5
Sprache:
Englisch
