Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- Symbols
- 1 The essence of wave motion
- 2 Wave equations and their solution
- 3 Further wave equations
- 4 Sinusoidal waveforms
- 5 Complex wavefunctions
- 6 Huygens wave propagation
- 7 Geometrical optics
- 8 Interference
- 9 Fraunhofer diffraction
- 10 Longitudinal waves
- 11 Continuity conditions
- 12 Boundary conditions
- 13 Linearity and superpositions
- 14 Fourier series and transforms
- 15 Waves in three dimensions
- 16 Operators for wave motions
- 17 Uncertainty and quantum mechanics
- 18 Waves frommoving sources
- 19 Radiation from moving charges
- Appendix: Vector mathematics
- References
- Index
Preface
Published online by Cambridge University Press: 05 December 2012
- Frontmatter
- Contents
- Preface
- Acknowledgements
- Symbols
- 1 The essence of wave motion
- 2 Wave equations and their solution
- 3 Further wave equations
- 4 Sinusoidal waveforms
- 5 Complex wavefunctions
- 6 Huygens wave propagation
- 7 Geometrical optics
- 8 Interference
- 9 Fraunhofer diffraction
- 10 Longitudinal waves
- 11 Continuity conditions
- 12 Boundary conditions
- 13 Linearity and superpositions
- 14 Fourier series and transforms
- 15 Waves in three dimensions
- 16 Operators for wave motions
- 17 Uncertainty and quantum mechanics
- 18 Waves frommoving sources
- 19 Radiation from moving charges
- Appendix: Vector mathematics
- References
- Index
Summary
When we revised our Southampton undergraduate programme to draw into a single course the wave phenomena hitherto distributed among optics, electromagnetism, thermal physics, quantum mechanics and solid-state physics, there seemed to be no single text to recommend. This book is an expanded version of the lecture notes that resulted, and its aim, beyond covering wave physics in its own right, is to introduce the common phenomena and analytical methods that are encountered in these individual fields as well as in the disciplines such as oceanography from which we have always drawn a further audience.
There were nonetheless some excellent textbooks for individual aspects. Coulson's classic [15] provides a concise and elegant mathematical introduction; French's once ubiquitous volume [29] is admirable for its clarity and brevity; and Crawford's brilliant and popularly acclaimed approach through everyday examples [16] suffers only from being long out-of-print. Many other texts are highly satisfactory in the areas they cover, and references to their recent editions are included throughout the following chapters.
One privilege for the author of any new volume is to have a new range of scientific and technological examples upon which to draw. Oscillations in the circulations of the oceans have been quite recently recognized; the extraction of power from ocean waves and tides is only now emerging as practical and necessary; the electronic control of holographic arrays has been possible for just a few years; and the quantum mechanics of coherent systems now underpins major research fields and devices that not long ago appeared impossible.
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- Information
- Introduction to the Physics of Waves , pp. ixPublisher: Cambridge University PressPrint publication year: 2012