Verfügbarkeit: The ray and wave theory of lenses

The ray and wave theory of lenses:

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 syst...

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Bibliographische Detailangaben
1. Verfasser:	Walther, A. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge Cambridge University Press 1995
Schriftenreihe:	Cambridge studies in modern optics 15
Schlagworte:	Lenses Geometrical optics Eikonal equation Fourier transform optics Eikonal Linse
Online-Zugang:	BSB01 FHN01 URL des Erstveröffentlichers
Zusammenfassung:	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
Beschreibung:	Title from publisher's bibliographic system (viewed on 05 Oct 2015)
Beschreibung:	1 online resource (xvi, 399 pages)
ISBN:	9780511470745
DOI:	10.1017/CBO9780511470745

Internformat

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505	8		\|a pt. 1. Preview. 1. Some consequences of the wave equation -- pt. 2. 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 -- pt. 3. Paraxial optics. 9. The small angle approximation. 10. Paraxial calculations. 11. Stops and pupils. 12. Chromatic aberrations -- pt. 4. Waves in homogeneous media. 13. Waves. 14. Wave propagation I: exact results. 15. Wave propagation II: approximations. 16. The stationary phase approximation -- pt. 5. 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 -- pt. 6. 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 -- pt. 7. Applications. 28. Gaussian beams. 29. Concentric systems. 30. Thin lenses. 31. Mock ray tracing. 32. Diffractive optical elements -- Appendix 1: Fourier transforms -- Appendix 2: Third order calculations -- Appendix 3: Ray tracing -- Appendix 4: Eikonals and the propagation kernels -- Appendix 5: Paraxial eikonals -- Appendix 6: Hints and problem solutions
520			\|a 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
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Datensatz im Suchindex

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any_adam_object
author	Walther, A.
author_facet	Walther, A.
author_role	aut
author_sort	Walther, A.
author_variant	a w aw
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contents	pt. 1. Preview. 1. Some consequences of the wave equation -- pt. 2. 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 -- pt. 3. Paraxial optics. 9. The small angle approximation. 10. Paraxial calculations. 11. Stops and pupils. 12. Chromatic aberrations -- pt. 4. Waves in homogeneous media. 13. Waves. 14. Wave propagation I: exact results. 15. Wave propagation II: approximations. 16. The stationary phase approximation -- pt. 5. 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 -- pt. 6. 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 -- pt. 7. Applications. 28. Gaussian beams. 29. Concentric systems. 30. Thin lenses. 31. Mock ray tracing. 32. Diffractive optical elements -- Appendix 1: Fourier transforms -- Appendix 2: Third order calculations -- Appendix 3: Ray tracing -- Appendix 4: Eikonals and the propagation kernels -- Appendix 5: Paraxial eikonals -- Appendix 6: Hints and problem solutions
ctrlnum	(ZDB-20-CBO)CR9780511470745 (OCoLC)849890704 (DE-599)BVBBV043942394
dewey-full	681/.423
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	681 - Precision instruments and other devices
dewey-raw	681/.423
dewey-search	681/.423
dewey-sort	3681 3423
dewey-tens	680 - Manufacture of products for specific uses
discipline	Physik Handwerk und Gewerbe / Verschiedene Technologien
doi_str_mv	10.1017/CBO9780511470745
format	Electronic eBook
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id	DE-604.BV043942394
illustrated	Not Illustrated
indexdate	2024-07-10T07:39:17Z
institution	BVB
isbn	9780511470745
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029351364
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physical	1 online resource (xvi, 399 pages)
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series2	Cambridge studies in modern optics
spelling	Walther, A. Verfasser aut The ray and wave theory of lenses A. Walther The Ray & Wave Theory of Lenses Cambridge Cambridge University Press 1995 1 online resource (xvi, 399 pages) txt rdacontent c rdamedia cr rdacarrier Cambridge studies in modern optics 15 Title from publisher's bibliographic system (viewed on 05 Oct 2015) pt. 1. Preview. 1. Some consequences of the wave equation -- pt. 2. 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 -- pt. 3. Paraxial optics. 9. The small angle approximation. 10. Paraxial calculations. 11. Stops and pupils. 12. Chromatic aberrations -- pt. 4. Waves in homogeneous media. 13. Waves. 14. Wave propagation I: exact results. 15. Wave propagation II: approximations. 16. The stationary phase approximation -- pt. 5. 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 -- pt. 6. 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 -- pt. 7. Applications. 28. Gaussian beams. 29. Concentric systems. 30. Thin lenses. 31. Mock ray tracing. 32. Diffractive optical elements -- Appendix 1: Fourier transforms -- Appendix 2: Third order calculations -- Appendix 3: Ray tracing -- Appendix 4: Eikonals and the propagation kernels -- Appendix 5: Paraxial eikonals -- Appendix 6: Hints and problem solutions 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 Lenses Geometrical optics Eikonal equation Fourier transform optics Eikonal (DE-588)4151213-3 gnd rswk-swf Linse (DE-588)4167776-6 gnd rswk-swf Linse (DE-588)4167776-6 s Eikonal (DE-588)4151213-3 s 1\p DE-604 Erscheint auch als Druck-Ausgabe 978-0-521-45144-4 Erscheint auch als Druck-Ausgabe 978-0-521-02829-5 https://doi.org/10.1017/CBO9780511470745 Verlag URL des Erstveröffentlichers Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Walther, A. The ray and wave theory of lenses pt. 1. Preview. 1. Some consequences of the wave equation -- pt. 2. 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 -- pt. 3. Paraxial optics. 9. The small angle approximation. 10. Paraxial calculations. 11. Stops and pupils. 12. Chromatic aberrations -- pt. 4. Waves in homogeneous media. 13. Waves. 14. Wave propagation I: exact results. 15. Wave propagation II: approximations. 16. The stationary phase approximation -- pt. 5. 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 -- pt. 6. 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 -- pt. 7. Applications. 28. Gaussian beams. 29. Concentric systems. 30. Thin lenses. 31. Mock ray tracing. 32. Diffractive optical elements -- Appendix 1: Fourier transforms -- Appendix 2: Third order calculations -- Appendix 3: Ray tracing -- Appendix 4: Eikonals and the propagation kernels -- Appendix 5: Paraxial eikonals -- Appendix 6: Hints and problem solutions Lenses Geometrical optics Eikonal equation Fourier transform optics Eikonal (DE-588)4151213-3 gnd Linse (DE-588)4167776-6 gnd
subject_GND	(DE-588)4151213-3 (DE-588)4167776-6
title	The ray and wave theory of lenses
title_alt	The Ray & Wave Theory of Lenses
title_auth	The ray and wave theory of lenses
title_exact_search	The ray and wave theory of lenses
title_full	The ray and wave theory of lenses A. Walther
title_fullStr	The ray and wave theory of lenses A. Walther
title_full_unstemmed	The ray and wave theory of lenses A. Walther
title_short	The ray and wave theory of lenses
title_sort	the ray and wave theory of lenses
topic	Lenses Geometrical optics Eikonal equation Fourier transform optics Eikonal (DE-588)4151213-3 gnd Linse (DE-588)4167776-6 gnd
topic_facet	Lenses Geometrical optics Eikonal equation Fourier transform optics Eikonal Linse
url	https://doi.org/10.1017/CBO9780511470745
work_keys_str_mv	AT walthera therayandwavetheoryoflenses AT walthera theraywavetheoryoflenses

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