A Student's Guide to Fourier Transforms: With Applications in Physics and Engineering

J. F. James

doi:10.1017/CBO9781139164917

Fourier transform theory is of central importance in a vast range of applications in physical science, engineering, and applied mathematics. This new edition of a successful student text provides a concise introduction to the theory and practice of Fourier transforms, using qualitative arguments wherever possible and avoiding unnecessary mathematics. After a brief description of the basic ideas and theorems, the power of the technique is then illustrated by referring to particular applications in optics, spectroscopy, electronics and telecommunications. The rarely discussed but important field of multi-dimensional Fourier theory is covered, including a description of computer-aided tomography (CAT-scanning). The final chapter discusses digital methods, with particular attention to the fast Fourier transform. Throughout, discussion of these applications is reinforced by the inclusion of worked examples. The book assumes no previous knowledge of the subject, and will be invaluable to students of physics, electrical and electronic engineering, and computer science.

From reviews of the first edition:‘… elegantly simple.’

Source: New Scientist

‘It is the wide range of topics that makes this book so appealing … I highly recommend this book for the advanced student … Even the expert who wants a deeper appreciation of the Fourier transform will find the book useful.’

Source: Computers in Physics

‘… this is an excellent book to initiate students who possess a reasonable mathematical background to the use of Fourier transforms …’

Source: Microscopy and Analysis

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References

Bibliography

Abramowitz, M. and Stegun, I. A. Handbook of Mathematical Functions. Dover, New York. 1965

Abramowitz, M. and Stegun, I. A. A more up-to-date version of Jahnke & Emde, below

Bracewell, R. N. The Fourier Transform and its Applications. McGraw-Hill, New York. 1965

Bracewell, R. N. This is one of the two most popular books on the subject. Similar in scope to this book, but more thorough and comprehensive

Brigham, E. O. The Fast Fourier Transform. Prentice Hall, New York. 1974

Brigham, E. O. The standard work on digital Fourier transforms and their implementation by various kinds of FFT programs

Champeney, D. C. Fourier Transforms and Their Physical Applications. Academic Press, London and New York. 1973

Champeney, D. C. Like Bracewell, one of the two most popular books on practical Fourier tranforming. Covers similar ground, but with some differences

Champeney, D. C. A Handbook of Fourier Theorems. Cambridge University Press. 1987

Herman, Gabor T. Image Reconstruction From Projections. Academic Press, London and New York. 1980

Herman, Gabor T. Includes details of Fourier methods (among others) for computerized tomography, including theory and applications

Jahnke, E and Emde, F. Tables of Functions with Formulae and Curves. Dover, New York. 1943

Jahnke, E and Emde, F. The classic work on the functions of mathematical physics, with diagrams, charts and tables, of Bessel functions, Legendre polynomials, spherical harmonics etc

Körner, T. W. Fourier Analysis. Cambridge University Press. 1988

Körner, T. W. One of the more thorough and entertaining works on analytic Fourier theory, but plenty of physical applications: expensive, but firmly recommended for serious students

Titchmarsh, E. C. An Introduction to the theory of Fourier Integrals. Clarendon Press, Oxford. 1962

Titchmarsh, E. C. The theorists' standard work on Fourier theory. Unnecessarily difficult for ordinary mortals, but needs consulting occasionally

Watson, G. N. A Treatise of the Theory of Bessel Functions, Cambridge University Press. 1962

Watson, G. N. Another great theoretical classic: chiefly for consultation by people who have equations they can't solve, and which seem likely to involve Bessel functions

Whittaker, J. M. Interpolary Function Theory, Cambridge University Press. 1935

Whittaker, J. M. A slim volume dealing with (among other things) the sampling theorem and problems of interpolating points between samples of band-limited curves

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A Student's Guide to Fourier Transforms

With Applications in Physics and Engineering

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Contents

Frontmatter
pp i-iv

Contents
pp v-vi

Preface to the first edition
pp vii-viii

Preface to the second edition
pp ix-x

1 - Physics and Fourier transforms
pp 1-19

2 - Useful properties and theorems
pp 20-37

3 - Applications 1: Fraunhofer diffraction
pp 38-57

4 - Applications 2: signal analysis and communication theory
pp 58-75

5 - Applications 3: spectroscopy and spectral line shapes
pp 76-85

6 - Two-dimensional Fourier transforms
pp 86-93

7 - Multi-dimensional Fourier transforms
pp 94-108

8 - The formal complex Fourier transform
pp 109-115

9 - Discrete and digital Fourier transforms
pp 116-125

Appendix
pp 126-130

Bibliography
pp 131-132

Index
pp 133-135

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A Student's Guide to Fourier Transforms

With Applications in Physics and Engineering

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