This book describes clearly how the ray and wave pictures of lens behaviour can be combined and developed, to produce a theory capable of dealing with the large angles encountered in real optical systems. It will be invaluable to graduate students and professionals in optical design and engineering.
This book describes clearly how the ray and wave pictures of lens behaviour can be combined and developed, to produce a theory capable of dealing with the large angles encountered in real optical systems. It will be invaluable to graduate students and professionals in optical design and engineering.
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.
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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