Introduction to Modern Optics
eBook - ePub

Introduction to Modern Optics

Grant R. Fowles

  1. 336 Seiten
  2. English
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eBook - ePub

Introduction to Modern Optics

Grant R. Fowles

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Buchvorschau
Inhaltsverzeichnis
Quellenangaben

Über dieses Buch

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.

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Information

Verlag
Dover Publications
Jahr
2012
ISBN
9780486134925
Thema
Physical Sciences
Thema
Physics

CHAPTER 1

The Propagation of Light

1.1 Elementary Optical Phenomena and the Nature of Light

“Rays of light,” wrote Isaac Newton in his Treatise on Opticks, “are very small bodies emitted from shining substances.” Newton probably chose to regard light as corpuscular chiefly because of the fact that, in a given uniform medium, light appears to travel in straight-line paths. This is the so-called law of rectilinear propagation. The formation of shadows is a familiar example cited to illustrate it.
A contemporary of Newton’s, Christiaan Huygens (1629–1695), supported a different description, namely, that light is a “wave motion” spreading out from the source in all directions. The reader will recall the time-honored use of Huygens’ construction with primary waves and secondary wavelets to explain the elementary laws of reflection and refraction. Other optical facts that are well explained by the wave picture are interference phenomena such as the formation of bright and dark bands by reflection of light from thin films, and diffraction, or the spreading of light around obstacles.
Owing mainly to the genius of James Clerk Maxwell (1831–1879), we know today that visible light is merely one form of electromagnetic energy, usually described as electromagnetic waves, the complete spectrum of which includes radio waves, infrared radiation, the visible spectrum of colors red through violet, ultraviolet radiation, x-rays, and gamma radiation. Furthermore, from the quantum theory of light pioneered by Planck, Einstein, and Bohr during the first two decades of the twentieth century, we know that electromagnetic energy is quantized; that is, it can only be imparted to or taken from the electromagnetic field in discrete amounts called photons.
Thus the modern concept of light contains elements of both Newton’s and Huygens’ descriptions. Light is said to have a dual nature. Certain phenomena, such as interference, exhibit the wave character of light. Other phenomena, the photoelectric effect, for example, display the particle aspect of light.
If one were to ask the question “What is light, really?” there can be no simple answer. There is no familiar object or macroscopic model to employ as an analogy. But understanding need not be based on analogy. A consistent and unambiguous theoretical explanation of all optical phenomena is furnished jointly by Maxwell’s electromagnetic theory and the quantum theory. Maxwell’s theory treats the propagation of light, whereas the quantum theory describes the interaction of light and matter or the absorption and emission of light. The combined theory is known as quantum electrodynarnics. Since electromagnetic theory and quantum theory also explain many other physical phenomena in addition to those related to electromagnetic radiation, it can be fairly assumed that the nature of light is well understood, at least within the context of a mathematical framework that accurately accounts for present experimental observations. The question as to the “true” or “ultimate” nature of light, although as yet unanswered, is quite irrelevant to our study of optics.

1.2 Electrical Constants and the Speed of Light

At a point in empty space the electromagnetic state of the vacuum is said to be specified by two vectors, the electric field E and the magnetic field H. In the static case, that is, when the two fields do not change with time, E and H are independent of one another and are determined, respectively, by the distribution of charges and currents in all space. In the dynamic case, however, the fields are not independent. Their space and time derivatives are interrelated in a manner expressed by curl equations
e9780486134925_i0002.webp
(1.1)
e9780486134925_i0003.webp
(1.2)
The divergence conditions
e9780486134925_i0004.webp
(1.3)
e9780486134925_i0005.webp
(1.4)
indicate the absence of any charge at the point in question. They are true in either the...

Inhaltsverzeichnis

  1. Title Page
  2. Copyright Page
  3. Preface
  4. Table of Contents
  5. CHAPTER 1 - The Propagation of Light
  6. CHAPTER 2 - The Vectorial Nature of Light
  7. CHAPTER 3 - Coherence and Interference
  8. CHAPTER 4 - Multiple-Beam Interference
  9. CHAPTER 5 - Diffraction
  10. CHAPTER 6 - Optics of Solids
  11. CHAPTER 7 - Thermal Radiation and Light Quanta
  12. CHAPTER 8 - Optical Spectra
  13. CHAPTER 9 - Amplification of Light. Lasers
  14. CHAPTER 10 - Ray Optics
  15. APPENDIX I - Relativistic Optics
  16. REFERENCES
  17. ANSWERS TO SELECTED ODD-NUMBERED PROBLEMS
  18. Index
  19. A CATALOG OF SELECTED DOVER BOOKS IN SCIENCE AND MATHEMATICS
  20. DOVER BOOKS ON PHYSICS
Zitierstile für Introduction to Modern Optics

APA 6 Citation

Fowles, G. (2012). Introduction to Modern Optics ([edition unavailable]). Dover Publications. Retrieved from https://www.perlego.com/book/110831/introduction-to-modern-optics-pdf (Original work published 2012)

Chicago Citation

Fowles, Grant. (2012) 2012. Introduction to Modern Optics. [Edition unavailable]. Dover Publications. https://www.perlego.com/book/110831/introduction-to-modern-optics-pdf.

Harvard Citation

Fowles, G. (2012) Introduction to Modern Optics. [edition unavailable]. Dover Publications. Available at: https://www.perlego.com/book/110831/introduction-to-modern-optics-pdf (Accessed: 14 October 2022).

MLA 7 Citation

Fowles, Grant. Introduction to Modern Optics. [edition unavailable]. Dover Publications, 2012. Web. 14 Oct. 2022.