《國際著名力學圖書·影印版系列·光學》是2010年清華大學出版社出版的圖書。
基本介紹
- 書名:國際著名力學圖書·影印版系列·光學
- 又名:Optics,4th ed
- 頁數:532頁
- 出版社:清華大學出版社; 第1版
- 出版時間:2010年3月1日
- 裝幀:平裝
- 開本:16
圖書信息,內容簡介,目錄,
圖書信息
正文語種: 英語
ISBN: 9787302222453
條形碼: 9787302222453
尺寸: 27.4 x 20.8 x 2.4 cm
重量: 998 g
內容簡介
《光學(第4版)(影印版)》是西方大學最流行的基礎光學教材之一,從寫作內容到編排順序都與國內基礎光學教材較接近,比較符合國內基礎光學的教學習慣,是一本非常合適的基礎光學的雙語教材。不僅系統地介紹了光學知識,還為讀者提供了許多光學發展背景,如第一章光學史內容豐富、精彩,不可多得。
包括傳統光學教材的內容(如幾何光學、干涉、衍射、偏振等),還增加了許多新內容,以體現近代光學的發展。
每部分最後都安排了非常全面的小結,利於讀者在一階段的學習之後,查漏補缺,鞏固已學的知識。
將理論系統介紹與這些理論對於自然現象的解釋和在工程實際套用進行了有機的結合。使讀者不僅掌握了基礎知識,還見識到了這些理論如何解釋日常生活中的一些自然現象;最重要的是學到了如何將基礎知識運用到工程技術中去的科學思路。
目錄
Preface
1.History of Optics
References
2.What is Light?
2.1 Introduction
2.2 The Corpuscular Model
2.3 The Wave Model
2.4 The Particle Nature of Radiation
2.5 Wave Nature of Matter
2.6 The Uncertainty Principle
2.7 The Single Slit Diffraction Experiment
2.8 The Probabilistic Interpretation of Matter Waves
2.9 An Understanding of Interference Experiments
2.10 The Polarization of a Photon
2.11 The Time-energy Uncertainty Relation
Summary
Problems
Solutions
References and Suggested Readings
Part 1 Geometrical Optics
3.Fermat's Principle and Its Applications
3.1 Introduction
3.2 Laws of Reflection and Refraction from Fermat's Principle
3.3 Ray Paths in an Inhomo~eneous Medium
3.4 The Ray Equation and its Solutions
3.5 Refraction of Rays at the Interface between an Isotropic Medium and an Anisotropic Medium
Summary
Problems
References and Suggested Readings
4.Refraction and Reflection by Spherical Surfaces
4.1 Introduction
4.2 Refraction at a Single Spherical Surface
4.3 Reflection by a Single Spherical Surface
4.4 The Thin Lens
4.5 The Principal FOCI and Focal Lengths of a Lens
4.6 The Newton Formula
4.7 Lateral Magnification
4.8 Aplanatic Points of a Sphere
4.9 The Cartesian Oval
4.10 Geometrical Proof for the Existence of Aplanatic Points
4.11 The Sine Condition
Summary
Problems
References and Suggested Readings
5.The Matrix Method in Paraxial Optics
5.1 Introduction
5.2 The Matrix Method
5.3 Unit Planes
5.4 Nodal Planes
5.5 A System of Two Thin Lenses
Summary
Problems
References and Suggested Readings
6.Aberrations
6.1 Introduction
6.2 Chromatic Aberration
6.3 Monochromatic Aberrations
Summary
Problems
References and Suggested Readings
Part 2 Vibrations and Waves
7.Simple Harmonic Motion, Forced Vibrations and Origin of Refractive Index
7.1 Introduction
7.2 Simple Harmonic Motion
7.3 Damped Simple Harmonic Motion
7.4 Forced Vibrations
7.5 Origin of Refractive Index
7.6 Rayleigh Scattering
Summary
Problems
References and Suggested Readings
8.Fourier Series and Applications
8.1 Introduction
8.2 Transverse Vibrations of a Plucked String
8.3 Application of Fourier Series in Forced Vibrations
8.4 The Fourier Integral
Summary
Problems
References and Suggested Readings
9.The Dirac Delta Function and Fourier Transforms
9.1 Introduction
9.2 Representations of the Dirac Delta Function
9.3 Integral Representation of the Delta Function
9.4 Delta Function as a Distribution
9.5 Fourier Integral Theorem
9.6 The Two and Three Dimensional Fourier Transform
Summary
Problems
10.Group Velocity and Pulse Dispersion
10.1 Introduction
10.2 Group Velocity
10.3 Group Velocity of a Wave Packet
10.4 Self Phase Modulation
Summary
Problems
References and Suggested Readings
11.Wave Propagation and the Wave Equation
11.1 Introduction
11.2 Sinusoidal Waves: Concept of Frequency and Wavelength
11.3 Types of Waves
11.4 Energy Transport in Wave Motion
11.5 The One-dimensional Wave Equation
11.6 Transverse Vibrations of a Stretched Strinz
11.7 Longitudinal Sound Waves in a Solid
11.8 Longitudinal Waves in a Gas
11.9 The General Solution of the One-dimensional Wave Equation
Summary
Problems
References and Suggested Readings
12.Huygens' Principle and Its Applications
12.1 Introduction
12.2 Huygens'Theory
12.3 Rectilinear Propagation
12.4 Application of Huygens' Principle to Study Refraction and Reflection
12.5 Huygens' Principle in Inhomogeneous Media
Summary
Problems
References and Suggested Readings
Part 3 Interference
13.Superposition of Waves
14.Two Beam Interference by Division of Wavefront
15.Interference by Division of Amplitude
16.Multiple Beam Interferometry
17.Coherence
Part 4 Diffraction
18.Fraunhofer Diffraction: I
19.Fraunhofer Diffraction: II and Fourier Optics
20.Fresnel Diffraction
21.Holography
Part 5 Electromagnetic Character of Light
22.Polarization and Double Refraction
23.Electromagnetic Waves
24.Reflection and Refraction of Electromagnetic Waves
Part 6 Photons
25.The Particle Nature of Radiation
Part 7 Lasers & Fiber Optics
26.Lasers: An Introduction
27.Fiber Optics I: Basic Concepts and Ray Optics Considerations
28.Fiber Optics II: Basic Waveguide Theory and Concept of Modes
29.Fiber Optics III: Single Mode Fibers
Appendix A: Gamma Functions and Integrals Involving Gaussian Functions
Appendix B: Evaluation of the Integral
Appendix C: Diffraction of a Gaussian Beam
Appendix D: TE and TM Modes in Planar Waveguides
Name Index
Subject Index
