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  • 国际著名力学图书?影印版系列?光学(第4版)(影印版)[平装]
  • 共2个商家     42.80元~45.60
  • 作者:加塔克(A.K.Ghatak)(作者)
  • 出版社:清华大学出版社;第1版(2010年3月1日)
  • 出版时间:
  • 版次 :
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  • 包装:
  • ISBN:9787302222453

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    《光学(第4版)(影印版)》:国际著名物理图书·影印版系列

    目录

    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

    序言

    2009年是光信息科学与技术领域的所有科技工作者印象深刻的一年,这一年的诺贝尔物理学奖花落光信息科学与技术的先行者。华裔科学家、光纤之父高锟因他在1966年提出光纤损耗机理的工作,美国科学家Willmd S.Boyle和E.Smith以在1977年发明CCD(电荷耦合器件)的工作,共同获得2009年度的诺贝尔物理学奖。他们先驱性的工作为今天信息化、网络化的社会生活奠定了基础。他们的获奖激励着光信息科学与技术领域的科学工作者再接再厉,把光信息科学与技术推向更高的层次;同时也鼓励更多的年轻人立志投身于本领域的研发工作;即使对于普通群众,借助于网络与媒体,也感受到了“光”的美妙。在这一时刻,清华大学出版社着手影印出版著名光学专家Ajoy Ghak所著《光学(第4版)》正当其时。一来为国内广大光信息科学与技术科学工作者提供本领域的基础教材;二来为配合落实教育部倡导的双语教学提供了一本精品教材。Aioy Ghatak是印度德里理工大学物理系教授,在光学、光纤光学和量子力学领域著述颇丰。

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