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Dover Publications

Introduction to Modern Optics (Dover Books on Physics)

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This incisive text provides a basic undergraduate-level course in modern optics for students in physics, technology and engineering. The first half of the book deals with classical physical optics; the second principally with the quantum nature of light. Chapters 1 and 2 treat the propagation of light waves, including the concepts of phase and group velocities, and the vectorial nature of light. Chapter 3 applies the concepts of partial coherence and coherence length to the study of interference, and Chapter 4 takes up multiple-beam interference and includes Fabry-Perot interferometry and multilayer-film theory. Diffraction and holography are the subjects of Chapter 5, and the propagation of light in material media (including crystal and nonlinear optics) are central to Chapter 6. Chapters 7 and 8 introduce the quantum theory of light and elementary optical spectra, and Chapter 9 explores the theory of light amplification and lasers. Chapter 10 briefly outlines ray optics in order to introduce students to the matrix method for treating optical systems and to apply the ray matrix to the study of laser resonators. Many applications of the laser to the study of optics are integrated throughout the text. The author assumes students have had an intermediate course in electricity and magnetism and some advanced mathematics beyond calculus. For classroom use, a list of problems is included at the end of each chapter, with selected answers at the end of the book. Read more

Publisher ‏ : ‎ Dover Publications; 2nd edition (June 1, 1989)


Language ‏ : ‎ English


Paperback ‏ : ‎ 336 pages


ISBN-10 ‏ : ‎ 0486659577


ISBN-13 ‏ : ‎ 72


Item Weight ‏ : ‎ 12.8 ounces


Dimensions ‏ : ‎ 5.25 x 0.75 x 8.5 inches


Best Sellers Rank: #540,879 in Books (See Top 100 in Books) #79 in Optics for Physics #189 in Physics of Acoustics & Sound (Books) #285 in Physics (Books)


#79 in Optics for Physics:


#189 in Physics of Acoustics & Sound (Books):


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Top Amazon Reviews

    • A very nice book!
An applied mathematician by trade (with additional training in electrical engineering), I purchased this book to fill in background information on general optics in order to prepare me to read background material and scientific papers in nonlinear optics, a subject in which I am just beginning to undertake research. My familiarity with basic optics is limited to what I learned in 100-level physics many years ago--in other words, I know essentially nothing. The book really does deliver on the promise on the backcover that all that is needed is some "advanced mathematics (beyond calculus)" and "an intermediate course in electricity and magnetism." I found this book incredibly nice to read, with concise explanations that contain the proper amount of detail for both veteran readers and complete newbies (such as myself). The author doesn't bog the reader down with equations and long derivations, but he explains clearly how one step leads to another, allowing the reader to quickly fill in the details of the derivations, a perfect compromise for all audiences: those new to the field can learn by doing, yet with the proper guidance to prevent the process from being too frustrating, and experienced readers needing a refresher can merely read the results. Figures are well-placed and especially helpful, and notation is clear and not needlessly complicating. I highly recommend this book. Its value can't be denied; however, I'm certain that the book would compare favorably with other books costing several times more. ... show more
Reviewed in the United States on January 19, 2010 by Diz
    • Best in its class
This is an easy 5 star. For those who gave it less, please think again: 1) Title says: introduction. So don't imagine it covers every equation there is. Get Wolf's book if you like equations that much. 2) Short but concise on key subjects. To do that, you have to skip a lot of intro/background or equations, that's why there are references and citations (and better bricks/bug killers). 3) This is an intro book but also serves well as a refresher. This is intermediate level to advanced level for non-physicists, as it assumes good understanding of calculus. To be fair, the book is not without flaws. One obvious is the name implied recent advances (although different people use modern optics differently), while the book was last revised in 1975. Nonetheless, the key component of modern optics are mostly there, unless you are into cutting edge advances. It might be more appropriate to name it as "intro to physical optics", then again the author added a section of ray optics at the end of the book... ... show more
Reviewed in the United States on June 13, 2008 by Will H
    • More of an engineering than an academic viewpoint on optics
If you're studying optics in a college class using Hecht's classic text, or if you are an engineer who needs an overview of the subject, this is a good practical and economical introduction to the subject. However, be aware that this book is short on two components - details of derivations of mathematical formulas and illustrations. That is not to say they do not exist, it is just to say that at several points during the book I could have been aided in my comprehension by either an illustration or derivation that simply wasn't there. There are end of chapter exercises included, and there are solutions to selected odd problems in the back of the book. However, there are no details as to how those solutions were arrived at. If you are an engineer, the only way to really be sure that you understand a subject is to solve problems. Thus I suggest Schaum's Outline of Optics by Hecht for that task. Often the solutions to problems in that outline are the mathematical details that are missing in this book! The table of contents are not included in the product description, so I add that here: Chapter 1 The Propagation of Light 1.1 Elementary Optical Phenomena and the Nature of Light 1.2 Electrical Consants and the Speed of Light 1.3 Plane Harmonic Waves. Phase Velocity 1.4 Alternative Ways of Representing Harmonic Waves 1.5 Group Velocity 1.6 The Doppler Effect Chapter 2 The Vectorial Nature of Light 2.1 General Remarks 2.2 Energy Flow. The Poynting Vector 2.3 Linear Polarization 2.4 Circular and Elliptic Polarization 2.5 Matrix Representation of Polarization. The Jones Calculus 2.6 Reflection and Refraction at a Plane Boundary 2.7 Amplitudes of Reflected and Refracted Waves. Fresnel's Equations 2.8 The Brewster Angle 2.9 The Evanescent Wave in Total Reflection 2.10 Phase Changes in Total Internal Reflection 2.11 Reflection Matrix Chapter 3 Coherence and Interference 3.1 The Principle of Linear Superposition 3.2 Young's Experiment 3.3 The Michelson Interferometer 3.4 Theory of Partial Coherence. Visibility of Fringes 3.5 Coherence Time and Coherence Length 3.6 Spectral Resolution of a Finite Wave Train. Coherence and Line Width 3.7 Spatial Coherence 3.8 Intensity Interferometry 3.9 Fourier Transform Spectroscopy Chapter 4 Multiple-Beam Interference 4.1 Interference with Multiple Beams 4.2 The Fabry-Perot Interferometer 4.3 Resolution of Fabry-Perot Instruments 4.4 Theory of Multilayer Films Chapter 5 Diffraction 5.1 General Description of Diffraction 5.2 Fundamental Theory 5.3 Fraunhofer and Fresnel Diffraction 5.4 Fraunhofer Diffraction Patterns 5.5 Fresnel Diffraction Patterns 5.6 Applications of the Fourier Transform to Diffraction 5.7 Reconstruction of the Wave Front by Diffraction. Holography Chapter 6 Optics of Solids 6.1 General Remarks 6.2 Macroscopic Fields and Maxwell's Equations 6.3 The General Wave Equation 6.4 Propagation of Light in Isotropic Dielectrics. Dispersion 6.5 Propagation of Light in Conducting Media 6.6 Reflection and Refraction at the Boundary of an Absorbing Medium 6.7 Propagation of Light in Crystals 6.8 Double Refraction at a Boundary 6.9 Optical Activity 6.10 Faraday Rotation in Solids 6.11 Other Magneto-optic and Electro-optic Effects 6.12 Nonlinear Optics Chapter 7 Thermal Radiation and Light Quanta 7.1 Thermal Radiation 7.2 Kirchoff's Law. Blackbody Radiation 7.3 Modes of Electromagnetic Radiation in a Cavity 7.4 Classical Theory of Blackbody Radiation. The Rayleigh-Jeans Fo 7.5 Quantization of Cavity Radiation 7.6 Photon Statistics. Planck's Formula 7.7 The Photoelectric Effect and the Detection of Individual Photons 7.8 Momentum of a Photon. Light Pressure 7.9 Angular Momentum of a Photon 7.10 Wavelength of a Material Particle. de Broglie's Hypothesis 7.11 Heisenberg's Uncertainty Principle Chapter 8 Optical Spectra 8.1 General Remarks 8.2 Elementary Theory of Atomic Spectra 8.3 Quantum Mechanics 8.4 The Schrödinger Equation 8.5 Quantum Mechanics of the Hydrogen Atom 8.6 Radiative Transitions and Selection Rules 8.7 Fine Structure of Specturm Lines. Electron Spin 8.8 Multiplicity in the Spectra of Many-Electron Atoms. Spectroscopic Notation 8.9 Molecular Spectra 8.10 Atomic-Energy Levels in Solids Chapter 9 Amplification of Light. Lasers 9.1 Introduction 9.2 Stimulated Emission and Thermal Radiation 9.3 Amplification in a Medium 9.4 Methods of Producing a Population Inversion 9.5 Laser Oscillation 9.6 Optical-Resonaor Theory 9.7 Gas Lasers 9.8 Optically Pumped Solid-State Lasers 9.9 Dye Lasers 9.10 Semiconductor Diode Lasers 9.11 Q-Switching and Mode Locking 9.12 The Ring Laser Chapter 10 Ray Optics 10.1 Reflection and Refraction at a Spherical Surface 10.2 Lenses 10.3 Ray Equations 10.4 Ray Matrices and Ray Vectors 10.5 Periodic Lens Waveguides and Opical Resonators Appendix I Relativistic Optics 1.1 The Michelson-Morley Experiment 1.2 Einstein's Postulates of Special Relativity 1.3 Relativistic Effects in Optics 1.4 The Experiments of Sagnac and of Michelson and Gale to Detect Rotation References Answers to Selected Odd-Numbered Problems ... show more
Reviewed in the United States on May 3, 2008 by calvinnme
    • Highly recommend (assumes some prior exp with Maxwells eqns)
Very good overview of the theory of optics. It does require some prior knowledge and understanding of Maxwell`s eqns, and he does a good job moving you from there into the overview of each topic. He also does a good job avoiding getting overly bogged down in anything beyond the intro level. I highly recommend this book for either a review or a primer for full-on study down the road. If I had a critique, it would be that I would have liked to have seen more design examples in the ABCD matrix section. ... show more
Reviewed in the United States on August 31, 2017 by Steve Lee
    • Book arrived as expected
Good condition
Reviewed in the United States on July 30, 2023 by Fraser
    • Outdated information and obsolete mathematical formula
Outdated theory and obsoleted misleading caculation
Reviewed in the United States on July 24, 2020 by eric
    • A terrific little book to start with - and continue to use
This book is a little gem - and it costs next to nothing. It's a beautifully concise and remarkably clear introduction to the main principles of modern optics - the ones that you are going to need over and over again as you continue into the subject. This book gives you a great overview and set of basic foundations for every-day modern optics. I return to it often for little insights and reminders, even after 37 years in the business. ... show more
Reviewed in the United States on July 11, 2007 by R. G. W. Brown
    • Perfect for reviewing optics. Might work great as a supplement to an intro optics course, too.
Short and sweet. Although there might not be enough information to go on if you are reading this as a self-study. But it is definitely a great book to read if you had optics and just want to spend like a week or two casually reviewing optics during the evenings.
Reviewed in the United States on May 4, 2016 by Benjamin Strekha

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