Fundamentals of Technical Optics
(Sprache: Englisch)
Handbook of Optical Systems, Volume 1, Fundamentals of Technical Optics is the first book specially designed to allow beginners to learn optical design. Written by reputed experts from a world-wide leading manufacturer of optical systems, the book features...
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Handbook of Optical Systems, Volume 1, Fundamentals of Technical Optics is the first book specially designed to allow beginners to learn optical design. Written by reputed experts from a world-wide leading manufacturer of optical systems, the book features more than 750 full-colored illustrations and images in this volume.
Klappentext zu „Fundamentals of Technical Optics “
Herbert Gross, born in 1955, joined Carl Zeiss in 1982 after finishing his physics degree as specialist for optical design. Since 1995 he has been working as head of the department of optical design, while also teaching as a lecturer in Aalen and Lausanne.The new handbook is an intuitive, didactically elegant approach to the subject of optical systems and is not competed by any other work on the market. The selected board of authors, all reputed industrial experts, guarantee the timeliness of the well coordinated, coherent chapters.
This first volume of the handbook introduces readers to the basics of geometrical and technical optics. For an understanding
of optical systems, it is necessary to be familiar with the paraxial optics, the methods of ray tracing, the notations of geometrical optics and the description of optical systems. Very often the simple geometrical model is not sufficient to understand complex systems, therefore the wave optical model and the effects of light sources and receivers are discussed here too.
Special components, such as gratings, prisms or aspherical lenses are described in detail to provide an understanding of
modern complex systems. A short introduction into aberrations and the testing of optical systems allow readers to consider
and control the quality of optical systems.
Herbert Gross, born in 1955, joined Carl Zeiss in 1982 after finishing his physics degree as specialist for optical design. Since 1995 he has been working as head of the department of optical design, while also teaching as a lecturer in Aalen and Lausanne.
The new handbook is an intuitive, didactically elegant approach to the subject of optical systems and is not competed by any other work on the market. The selected board of authors, all reputed industrial experts, guarantee the timeliness of the well coordinated, coherent chapters.
This first volume of the handbook introduces readers to the basics of geometrical and technical optics. For an understanding
of optical systems, it is necessary to be familiar with the paraxial optics, the methods of ray tracing, the notations of geometrical optics and the description of optical systems. Very often the simple geometrical model is not sufficient to understand complex systems, therefore the wave optical model and the effects of light sources and receivers are discussed here too.
Special components, such as gratings, prisms or aspherical lenses are described in detail to provide an understanding of
modern complex systems. A short introduction into aberrations and the testing of optical systems allow readers to consider
and control the quality of optical systems.
The new handbook is an intuitive, didactically elegant approach to the subject of optical systems and is not competed by any other work on the market. The selected board of authors, all reputed industrial experts, guarantee the timeliness of the well coordinated, coherent chapters.
This first volume of the handbook introduces readers to the basics of geometrical and technical optics. For an understanding
of optical systems, it is necessary to be familiar with the paraxial optics, the methods of ray tracing, the notations of geometrical optics and the description of optical systems. Very often the simple geometrical model is not sufficient to understand complex systems, therefore the wave optical model and the effects of light sources and receivers are discussed here too.
Special components, such as gratings, prisms or aspherical lenses are described in detail to provide an understanding of
modern complex systems. A short introduction into aberrations and the testing of optical systems allow readers to consider
and control the quality of optical systems.
Inhaltsverzeichnis zu „Fundamentals of Technical Optics “
Preface.1 Introduction.
2 Paraxial Imaging.
2.1 General Remarks.
2.2 Single Surface.
2.3 Single Lens.
2.4 Multiple-component Systems.
2.5 Invariants.
2.6 Matrix Calculus.
2.7 Matrices Describing a More General Geometry.
2.8 Literature.
3 Interfaces.
3.1 Basics.
3.2 The Fresnel Equations.
3.3 Polarization Effects at Interfaces.
3.4 Evanescent Waves.
3.5 Non-geometrical Effects at Reflection.
3.6 Absorbing Media.
3.7 Literature.
4 Materials.
4.1 Basics.
4.2 Dispersion.
4.3 Relative Partial Dispersion.
4.4 Transmission.
4.5 Glasses.
4.6 Crystals and Special Materials.
4.7 Plastics.
4.8 Gases.
4.9 Liquids and Cements.
4.10 Metals.
4.11 Literature.
5 Raytracing.
5.1 The Meaning of Raytracing.
5.2 Raytracing Scheme.
5.3 Raytracing Formula Sets.
5.4 Raytracing in Optical Systems.
5.5 Special Components.
5.6 Differential Rays.
5.7 Non-sequential Raytracing.
5.8 Literature.
6 Radiometry.
6.1 Introduction.
6.2 Lambertian Radiator.
6.3 Radiation Transfer.
6.4 Radiometry of Optical Systems.
6.5 Description of Radiation Transport in the Phase Space.
6.6 Literature.
7 Light Sources.
7.1 Introduction.
7.2 Thermal Radiators.
7.3 Classical Lamps.
7.4 Diodes.
7.5 Laser Light Sources.
7.6 Model Descriptions of Radiation Sources.
7.7 Literature.
8 Sensor Technology and Signal Processing.
8.1 Introduction.
8.2 Sensor Characteristics.
8.3 Special Types of Sensor.
8.4 Sampling.
8.5 Signal Processing.
8.6 Noise.
8.7 Special Methods of Detection.
8.8 Literature.
9 Theory of Color Vision.
9.1 Introduction.
9.2 Color Vision of the Human Eye.
9.3 Phenomenologcal Theory of Color Vision.
9.4 Colorimetry.
9.5 Color Triangle.
9.6 Alternative Basic Systems.
9.7 Literature.
10 Optical Systems.
10.1 Special Properties of Lenses.
10.2 Special Rays in Optical Systems.
10.3
... mehr
Pupils.
10.4 Delano Diagram.
10.5 Special Aspects.
10.6 Literature.
11 Aberrations.
11.1 General Considerations.
11.2 Description of Aberrations.
11.3 Ray Aberrations.
11.4 The Sine Condition.
11.5 Wave Aberrations.
11.6 Spherical Aberration.
11.7 Astigmatism.
11.8 Field Curvature.
11.9 Coma.
11.10 Distortion.
11.11 Chromatic Longitudinal Aberrations.
11.12 Chromatic Transverse Aberrations.
11.13 Literature.
12 Wave Optics.
12.1 Basic Principles.
12.2 Point-spread Function.
12.3 Fourier Theory of Image Formation.
12.4 Transfer Functions.
12.5 Literature.
13 Plano-optical Components.
13.1 Plane-parallel plates.
13.2 Dispersion Prisms.
13.3 Reflection Prisms.
13.4 Construction Designs for Reflection Prisms.
13.5 Prism Systems.
13.6 Filters.
13.7 Literature.
14 Gratings.
14.1 Diffraction by a Slit.
14.2 Diffraction Gratings.
14.3 Blazed Gratings.
14.4 Fourier Theory of the Grating Diffraction.
14.5 Transmission Gratings.
14.6 Types of Grating.
14.7 Gratings in Image Formation Systems.
14.8 Diffraction by a Grating in the General Case.
14.9 Literature.
15 Special Components.
15.1 Aspherical Devices.
15.2 Gradient-index Lenses.
15.3 Diffusing Disks.
15.4 Cylinder Lenses.
15.5 Simple Cylinder Lenses.
15.6 Dynamic Light Modulators.
15.7 Fresnel Lenses.
15.8 Light Pipes.
15.9 Axicons.
15.10 Literature.
16 Optical Measurement and Testing Techniques.
16.1 Overview.
16.2 Measurement of the Focal Length.
16.3 Measurement of Angles.
16.4 Centering.
16.5 Measuring the Index of Refraction.
16.6 Surface-shape Measurement.
16.7 Testing of Surface Radii and Shapes.
16.8 Measuring Wavefronts.
16.9 Measurement of the Optical Transfer Function.
16.10 Beam-quality Measurement.
16.11 Coherence Measurement.
16.12 Polarization Measurement.
16.13 Stray-light Measurement.
16.14 Color Measurement.
16.1
10.4 Delano Diagram.
10.5 Special Aspects.
10.6 Literature.
11 Aberrations.
11.1 General Considerations.
11.2 Description of Aberrations.
11.3 Ray Aberrations.
11.4 The Sine Condition.
11.5 Wave Aberrations.
11.6 Spherical Aberration.
11.7 Astigmatism.
11.8 Field Curvature.
11.9 Coma.
11.10 Distortion.
11.11 Chromatic Longitudinal Aberrations.
11.12 Chromatic Transverse Aberrations.
11.13 Literature.
12 Wave Optics.
12.1 Basic Principles.
12.2 Point-spread Function.
12.3 Fourier Theory of Image Formation.
12.4 Transfer Functions.
12.5 Literature.
13 Plano-optical Components.
13.1 Plane-parallel plates.
13.2 Dispersion Prisms.
13.3 Reflection Prisms.
13.4 Construction Designs for Reflection Prisms.
13.5 Prism Systems.
13.6 Filters.
13.7 Literature.
14 Gratings.
14.1 Diffraction by a Slit.
14.2 Diffraction Gratings.
14.3 Blazed Gratings.
14.4 Fourier Theory of the Grating Diffraction.
14.5 Transmission Gratings.
14.6 Types of Grating.
14.7 Gratings in Image Formation Systems.
14.8 Diffraction by a Grating in the General Case.
14.9 Literature.
15 Special Components.
15.1 Aspherical Devices.
15.2 Gradient-index Lenses.
15.3 Diffusing Disks.
15.4 Cylinder Lenses.
15.5 Simple Cylinder Lenses.
15.6 Dynamic Light Modulators.
15.7 Fresnel Lenses.
15.8 Light Pipes.
15.9 Axicons.
15.10 Literature.
16 Optical Measurement and Testing Techniques.
16.1 Overview.
16.2 Measurement of the Focal Length.
16.3 Measurement of Angles.
16.4 Centering.
16.5 Measuring the Index of Refraction.
16.6 Surface-shape Measurement.
16.7 Testing of Surface Radii and Shapes.
16.8 Measuring Wavefronts.
16.9 Measurement of the Optical Transfer Function.
16.10 Beam-quality Measurement.
16.11 Coherence Measurement.
16.12 Polarization Measurement.
16.13 Stray-light Measurement.
16.14 Color Measurement.
16.1
... weniger
Autoren-Porträt von Gross
Herbert Gross was born in 1955. He studied Physics at the University of Stuttgart and joined Carl Zeiss in 1982. Since then he has been working in the department of optical design. His special areas of interest are the development of simulation methods, optical design software and algorithms, the modelling of laser systems and the simulation of problems in physical optics, and the tolerancing and measurement of optical systems. Since 1995, he has been heading the central optical design department at Zeiss. Dr. Gross served as a lecturer at the University of Applied Sciences at Aalen and at the University of Lausanne, and gave seminars for the Photonics Net of Baden Württemberg as well as several internal company courses. In 1995, he received his PhD from the University of Stuttgart for a work on the modelling of laser beam propagation in the partial coherent region. He has published several papers and has given many talks at conferences.
Bibliographische Angaben
- Autor: Gross
- 2005, 1. Auflage, XXII, 826 Seiten, 774 farbige Abbildungen, Maße: 17,5 x 25 cm, Gebunden, Englisch
- Herausgegeben: Herbert Gross
- Verlag: Wiley-VCH
- ISBN-10: 3527403779
- ISBN-13: 9783527403776
- Erscheinungsdatum: 02.03.2005
Sprache:
Englisch
Rezension zu „Fundamentals of Technical Optics “
"... the first of a six-volume series intended to provide a comprehensive understanding of the principles governing the design and simulation of optical systems ... recommended."CHOICE"...a compendium of information that would be of interest to optical engineering, physicists and others."American Reference Books Annual"The first two out of six volumes of the series Handbook of optical systems comes with more than 800 fullcoloured illustrations and images for an easy understanding of complex optical systems. (...) This series can be used by professionals as a comprehensive reference as well as an introduction for beginners in technicaloptics."Colloid Polym Sci
Pressezitat
"... the first of a six-volume series intended to provide a comprehensive understanding of the principles governing the design and simulation of optical systems ... recommended."CHOICE
"...a compendium of information that would be of interest to optical engineering, physicists and others."
American Reference Books Annual
"The first two out of six volumes of the series Handbook of optical systems comes with more than 800 fullcoloured illustrations and images for an easy understanding of complex optical systems. [...] This series can be used by professionals as a comprehensive reference as well as an introduction for beginners in technicaloptics."
Colloid Polym Sci
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