The ray and wave theory of lenses
著者
書誌事項
The ray and wave theory of lenses
(Cambridge studies in modern optics, 15)
Cambridge University Press, c1995
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注記
Includes bibliographical references (p. 392-395) and index
内容説明・目次
内容説明
Calculations on lens systems are often marred by the unjustifiable use of the small-angle approximation. This book describes in detail how the ray and wave pictures of lens behaviour can be combined and developed into a theory capable of dealing with the large angles encountered in real optical systems. A distinct advantage of this approach is that Fourier optics appears naturally, in a form valid for arbitrarily large angles. The book begins with extensive reviews of geometrical optiks, eikonal functions and the theory of wave propagation. The propagation of waves through lenses is then treated by exploiting the close connection between eikonal function theory and the stationary phase approximation. Aberrations are then discussed, and the book concludes with various applications in lens design and analysis, including chapters on laser beam propagation and diffractive optical elements. Throughout, special emphasis is placed on the intrinsic limitations of lens performance. The many practical insights it contains, as well as the exercises with their solutions, will be of interest to graduate students as well as to anyone working in optical design and engineering.
目次
- Preface
- Part I. Preview: 1. Some consequences of the wave equation
- Part II. Geometrical Optics: 2. Fermat's principle
- 3. Path differentials
- 4. The structure of image forming pencils
- 5. Eikonal transformations
- 6. Perfect images
- 7. Aberrations
- 8. Radiometry
- Part III. Paraxial Optics: 9. The small angle approximation
- 10. Paraxial calculations
- 11. Stops and pupils
- 12. Chromatic aberrations
- Part IV. Waves in Homogeneous Media: 13. Waves
- 14. Wave propagation I: exact results
- 15. Wave propagation II: approximations
- 16. The stationary phase approximation
- Part V. Wave Propagation Through Lenses: 17. Toward a wave theory of lenses
- 18. General propagation kernels
- 19. Paraxial wave propagation
- 20. The wave theory of image formation
- 21. Fourier optics
- Part VI. Aberrations: 22. Perfect systems
- 23. The vicinity of an arbitrary ray
- 24. Third order aberrations
- 25. The small field approximation
- 26. Ray tracing
- 27. Aberrations and the wave theory
- Part VII. Applications: 28. Gaussian beams
- 29. Concentric systems
- 30. Thin lenses
- 31. Mock ray tracing
- 32. Diffractive optical elements
- Appendices
- Bibliography
- Index.
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