APPLIEDOPTICS 应用光学(英文版)
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作者: 李林,黄一帆,王涌天 编著
出 版 社: 北京理工大学出版社
出版时间: 2008-6-1字数:版次: 1页数: 248印刷时间:开本: 16开印次:纸张:I S B N : 9787564005269包装: 平装内容简介
This book, Applied Optics, is a fundamental technical course for the specialties of optical engineering, optical measurement, control instruments and electronic science and technology. The book mainly includes basic theories and methods of how to solve the problems of geometrical optics, typical optical instruments, optical measurement, color measurement, optical fiber systems, laser systems and infrared optics. The knowledge mentioned above is a must for the opto-electronic students' learning.
The Chinese edition of the book has been acknowledged as the earliest and the best classical text in China. Many Chinese universities have chosen the book as the textbook for the course. However, there is no equivalent English version for applied optics in China, which results in lacking industry wordings for Chinese students. In order to encourage them to keep up with international level and has the ability of referring to global materials during their Master Degree studies, this English version for applied optics is thus pushed forward.
The book starts with the basic theory of geometrical optics, where the imaging properties of the ideal system, the relationship between the object and the image for the symmetrical spherical system, the instruments for the human eyes, the mirror and prism systems and selection of image rays in optical systems are described. Then it discusses the radiometry and photometry, where the calculations of radiometry and photometry for various optical systems are introduced. At last, it incorporates the image quality of an optical system, where geometrical aberrations, wave aberrations and optical transfer function are described. And, the theories of telescope, microscope and camera systems are also included.
目录
Chapter 1 Basic Principles of Geometrical Optics
1.1 Waves and Rays
1.2 Basic Law of Geometrical Optics
1.3 Refractive Index and Speed of Light
1.4 Reversibility of Ray Paths and Total Internal Reflection
1.5 Vector Form of Basic Laws
1.6 Classfication of Optical Systems and Concept of Imaging
1.7 Ideal Images and Ideal Optical Systems
Chapter 2 Image Formation of Symmetrical Systems Made from Spherical Surfaces
2.1 Ray Tracing Formulae for Symmetrical Systems Made from Spherical Surfaces
2.2 Sign Convention
2.3 Imaging Characters and Ray Tracing in the Paraxial Region
2.4 Basic Formula of Paraxial Region
2.5 Cardinal Points of an Optical System
2.6 Principal Planes and Focal Points of a Coaxial Spheric System
2.7 Principal Planes and Focal Points of a Coaxial Spheric System
2.8 Chart ILLUSTRATION FOR iMAGE fORMATION
2.9 Image Position and Size
2.10 Magnifications of Optical Systems
2.11 Optical Invariant
2.12 Relationship between Front Effective and Back Effective Focal Lengths
2.13 Nodal Planes and Nodal Points
2.14 Image Heigh of the Object at Infinity
2.15 The Combination of Ideal Optical Systems
2.16 Ray Tracing for Ideal Optical Systems
2.17 Equations for Calculating Positions of Principal Planes and Focal Focal Points of a Single Lens
Chapter 3 Instruments for Human Eyes
Chapter 4 Mirror and Prism Systems
Chapter 5 Selection of Image Rays in Optical Systems
Chapter 6 Basics of Radiometry and Photometry
Chapter 7 Image Quality of Optical System
Chapter 8 Telescope and Microscope
Chapter 9 Camera and Projector
Vocabulary
Bibliography
