Modern optical engineering: the design of optical systems
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
McGraw-Hill
2008
|
| Ausgabe: | 4. ed. |
| Schriftenreihe: | McGraw-Hill series on optical and electro-optical engineering
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIII, 754 S. Ill., graph. Darst. |
| ISBN: | 0071476873 9780071476874 |
Internformat
MARC
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| 100 | 1 | |a Smith, Warren J. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Modern optical engineering |b the design of optical systems |c Warren J. Smith |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a New York [u.a.] |b McGraw-Hill |c 2008 | |
| 300 | |a XIII, 754 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a McGraw-Hill series on optical and electro-optical engineering | |
| 650 | 4 | |a Optique - Instruments - Conception et construction | |
| 650 | 4 | |a Optical instruments |x Design and construction | |
| 650 | 0 | 7 | |a Technische Optik |0 (DE-588)4078181-1 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1804137286601801728 |
|---|---|
| adam_text | Contents
Preface
xi
Chapter
1.
Optics Overview
1
1.1
The Electromagnetic Spectrum
1
1.2
Light Wave Propagation
3
1.3
Snell s Law of Refraction
5
1.4
The Action of Simple Lenses and Prisms
on Wave Fronts
8
1.5
Interference and Diffraction
11
1.6
The Photoelectric Effect
16
Bibliography
17
Exercises
18
Chapter
2.
Gaussian Optics: The Cardinal Points
21
2.1
Introduction
21
2.2
Cardinal Points of an Optical System
22
2.3
Image Position and Size
24
2.4
A Collection of Imagery Equations
30
2.5
Optical Systems Not Immersed in Air
31
Bibliography
32
Exercises
32
Chapter
3.
Paraxial Optics and Calculations
35
3.1
Refraction of a Light Ray at a Single Surface
35
3.2
The Paraxial Region
37
3.3
Paraxial Raytracing through Several Surfaces
39
3.4
Calculation of the Focal Points and Principal Points
44
3.5
The Thin Lens
47
3.6
Mirrors
49
Bibliography
51
Exercises
51
Chapter
4.
Optical System Considerations
53
4.1
Systems of Separated Components
53
4.2
The Optical Invariant
58
4.3
Matrix Optics
63
4.4
The y-ybar Diagram
64
4.5
The Scheimpflug Condition
65
4.6
Summary of Sign Conventions
67
Bibliography
67
Exercises
68
Chapter
5.
The Primary Aberrations
71
5.1
Introduction
71
5.2
The Aberration Polynomial and the
Seidel
Aberrations
72
5.3
Chromatic Aberrations
83
5.4
The Effect of Lens Shape and Stop Position on the Aberrations
84
5.5
Aberration Variation with Aperture and Field
88
5.6
Optical Path Difference (Wave Front Aberration)
90
5.7
Aberration Correction and Residuals
91
5.8
Ray Intercept Curves and the Orders of Aberrations
94
5.9
The Relationships between Longitudinal Aberration,
Transverse Aberration, Wave-Front Aberration (OPD),
and Angular Aberration
99
Bibliography
102
Exercises
102
Chapter
6.
Third-Order Aberration Theory and Calculation
105
6.1
Introduction
105
6.2
Paraxial Raystracing
107
6.3
Third-Order Aberrations: Surface Contributions
108
6.4
Third-Order Aberrations: Thin Lenses; Stop Shift Equations
113
6.5
Sample Calculations
117
Bibliography
122
Chapter
7.
Prism and Mirror Systems
123
7.1
Introduction
123
7.2
Dispersing Prisms
123
7.3
The Thin Prism
125
7.4
Minimum Deviation
126
7.5
The Achromatic Prism and the Direct Vision Prism
126
7.6
Total Internal Reflection
128
7.7
Reflection from a Plane Surface
129
7.8
Plane Parallel Plates
132
7.9
The Right-Angle Prism
136
7.10
The Roof Prism
139
7.11
Erecting Prism Systems
141
7.12
Inversion Prisms
144
7.13
The Penta Prism
145
7.14
Rhomboids and Beamsplitters
146
7.15
Plane Mirrors
149
7.16
The Design of Prism and Reflector Systems
149
7.17
Analysis of Fabrication Errors
154
Bibliography
155
Chapter
8.
Characteristics of the Human Eye
157
8.1
Introduction
157
8.2
The Structure of the Eye
158
8.3
Characteristics of the Eye
160
8.4
Defects of the Eye
168
Bibliography
170
Experiments
171
Exercises
172
Chapter
9.
Stops, Apertures, Pupils and Diffraction
175
9.1
Introduction
175
9.2
The Aperture Stop and Pupils
176
9.3
The Field Stop
177
9.4
Vignetting
177
9.5
Glare Stops, Cold Stops, and Baffles
179
9.6
The Telecentric Stop
182
9.7
Apertures and Image Illumination
—
/-Number and Cosine-Fourth
183
9.8
Depth of Focus
186
9.9
Diffraction Effects of Apertures
188
9.10
Resolution of Optical Systems
192
9.11
Diffraction of a Gaussian (Laser) Beam
195
9.12
The Fourier Transform Lens and Spatial Filtering
199
Bibliography
200
Exercises
201
Chapter
10.
Optical Materials
205
10.1
Reflection, Absorption, Dispersion
205
10.2
Optical Glass
210
10.3
Special Glasses
216
10.4
Crystalline Materials
219
10.5
Plastic Optical Materials
221
10.6
Absorption Filters
224
10.7
Diffusing Materials and Projection Screens
227
10.8
Polarizing Materials
230
10.9
Cements and Liquids
232
Bibliography
233
Exercises
234
Chapter
11.
Optical Coatings
237
11.1
Dielectric Reflection and Interference Filters
237
11.2
Reflectors
247
11.3
Reticles
250
Bibliography
251
Exercises
252
Chapter
12.
Principles of
Radiometry
and Photometry
253
12.1
Introduction
253
12.2
The Inverse Square Law; Intensity
254
12.3
Radiance and Lambert s Law
255
12.4
Radiation into a Hemisphere
256
12.5
Irradiance Produced by a Diffuse Source
257
12.6
The
Radiometry
of Images
259
12.7
Spectral
Radiometry
263
12.8
Blackbody
Radiation
264
12.9
Photometry
270
12.10
Illumination Devices
277
Bibliography
282
Exercises
283
Chapter
13.
Optical System Layout
287
13.1
Telescopes, Afocal Systems
287
13.2
Field Lenses and Relay Systems
291
13.3
Exit Pupils, the Eye, and Resolution
293
13.4
The Simple Microscope or Magnifier
303
13.5
The Compound Microscope
305
13.6 Rangefinders 307
13.7
Radiometer and Detector Optics
311
13.8
Fiber Optics
318
13.9
Anamorphic Systems
323
13.10
Variable-Power (Zoom) Systems
328
13.11
The
Diffrattive
Surface
333
Bibliography
334
Exercises
334
Chapter
14.
Case Studies in System Layout
339
14.1
Introduction
339
14.2
Telephoto Lens
340
14.3
Retrofocus Lens
341
14.4
Relay System
342
14.5
Aperture Stop for Relay System of Sec.
14.4 343
14.6
Short Range Telescope
344
14.7
Field Lens for Sec.
14.6 347
14.8
Raytrace of Sec.
14.7 348
14.9 125
Power Microscope
349
14.10
Brueke
125
x
Magnifier
350
14.11
A 4x Mechanically Compensated Zoom Lens
351
14.12
Doing System Layout by Computer
356
14.13
An Athermalized Mid-IR System with an External Cold Stop
357
Chapter
15.
Wave-Front Aberrations and MTF
365
15.1
Introduction
365
15.2
Optical Path Difference: Focus Shift
366
15.3
Optical Path Difference: Spherical Aberration
367
15.4
Aberration Tolerances
373
15.5
Image Energy Distribution (Geometric)
379
15.6
Spread Functions
—
Point and Line
380
15.7
Geometric Spot Size Due to Spherical Aberration
381
15.8
The Modulation Transfer Function
385
15.9
Square-Wave vs. Sine-Wave Targets
391
15.10
Special Modulation Transfer Functions:
Diffraction-Limited Systems
392
15.11
Radial Energy Distribution
401
15.12
Point Spread Functions for the Primary Aberrations
402
Bibliography
407
Exercises
408
Chapter
16.
The Basics of Lens Design
409
16.1
Introduction
409
16.2
The Simple Meniscus Camera Lens
411
16.3
The Symmetrical Principle
417
16.4
Achromatic Telescope Objectives (Thin-Lens Theory)
417
16.5
Achromatic Telescope Objectives (Design Forms)
421
16.6
The Diffractive Surface in Lens Design
430
16.7
The Cooke Triplet Anastigmat: Third-Order Theory
435
16.8
Automatic Design by Electronic Computer
446
16.9
Practical Considerations
451
Bibliography
453
Exercises
454
Chapter
17.
Lens Design for Eyepieces, Microscopes, Cameras, etc.
457
17.1
Telescope Systems and Eyepieces
457
17.2
Microscope Objectives
466
17.3
Photographic Objectives
473
17.4
Condenser Systems
494
17.5
Aberration Characteristics of Simple Lenses
498
Bibliography
501
Exercises
501
Chapter
18.
Design of Mirror and Catadioptric Systems
503
18.1
Reflecting Systems
503
18.2
The Spherical Mirror
503
18.3
The Paraboloid
Ref
lector
506
18.4
The Ellipsoid and
Hyperboloid 507
18.5
Equations for Two-Mirror Systems
508
18.6
Conic Section through the Origin
513
18.7
The Schmidt System
515
χ
Contents
18.8
The Mangin
Mirror
517
18.9
The
Bouwers
(Maksutov) System
519
18.10
The Rapid Estimation of Blur Sizes for Simple Optical Systems
522
Bibliography
526
Exercises
527
Chapter
19.
Selected Lens Designs, Analyzed and Annotated
529
19.1
Introduction
529
19.2
Lens Data Tables
529
19.3
Raytrace Figures
530
19.4
A Note Re the Modulation Transfer Function
531
19.5
Index to the Lenses
532
19.6
The Lenses
534
Bibliography
597
Chapter
20.
The Practice of Optical Engineering
599
20.1
Optical Manufacture
599
20.2
Optical Specifications and Tolerances
610
20.3
Optical Mounting Techniques
628
20.4
Optical Laboratory Practice
633
20.5
Tolerance Budget Example
652
Bibliography
656
Chapter
21.
Getting the Most Out of Stock Lenses
659
21.1
Introduction
659
21.2
Stock Lenses
659
21.3
Some Simple Measurements
661
21.4
System Mock-up and Test
665
21.5
Aberration Considerations
668
21.6
How to Use a Singlet (Single Element)
671
21.7
How to Use a Cemented Doublet
675
21.8
Combinations of Stock Lenses
676
21.9
Sources
684
Appendix A. Raytracing and Aberration Calculation
687
Appendix B. Some Standard Dimensions
707
Glossary
709
Index
733
|
| adam_txt |
Contents
Preface
xi
Chapter
1.
Optics Overview
1
1.1
The Electromagnetic Spectrum
1
1.2
Light Wave Propagation
3
1.3
Snell's Law of Refraction
5
1.4
The Action of Simple Lenses and Prisms
on Wave Fronts
8
1.5
Interference and Diffraction
11
1.6
The Photoelectric Effect
16
Bibliography
17
Exercises
18
Chapter
2.
Gaussian Optics: The Cardinal Points
21
2.1
Introduction
21
2.2
Cardinal Points of an Optical System
22
2.3
Image Position and Size
24
2.4
A Collection of Imagery Equations
30
2.5
Optical Systems Not Immersed in Air
31
Bibliography
32
Exercises
32
Chapter
3.
Paraxial Optics and Calculations
35
3.1
Refraction of a Light Ray at a Single Surface
35
3.2
The Paraxial Region
37
3.3
Paraxial Raytracing through Several Surfaces
39
3.4
Calculation of the Focal Points and Principal Points
44
3.5
The "Thin Lens"
47
3.6
Mirrors
49
Bibliography
51
Exercises
51
Chapter
4.
Optical System Considerations
53
4.1
Systems of Separated Components
53
4.2
The Optical Invariant
58
4.3
Matrix Optics
63
4.4
The y-ybar Diagram
64
4.5
The Scheimpflug Condition
65
4.6
Summary of Sign Conventions
67
Bibliography
67
Exercises
68
Chapter
5.
The Primary Aberrations
71
5.1
Introduction
71
5.2
The Aberration Polynomial and the
Seidel
Aberrations
72
5.3
Chromatic Aberrations
83
5.4
The Effect of Lens Shape and Stop Position on the Aberrations
84
5.5
Aberration Variation with Aperture and Field
88
5.6
Optical Path Difference (Wave Front Aberration)
90
5.7
Aberration Correction and Residuals
91
5.8
Ray Intercept Curves and the "Orders" of Aberrations
94
5.9
The Relationships between Longitudinal Aberration,
Transverse Aberration, Wave-Front Aberration (OPD),
and Angular Aberration
99
Bibliography
102
Exercises
102
Chapter
6.
Third-Order Aberration Theory and Calculation
105
6.1
Introduction
105
6.2
Paraxial Raystracing
107
6.3
Third-Order Aberrations: Surface Contributions
108
6.4
Third-Order Aberrations: Thin Lenses; Stop Shift Equations
113
6.5
Sample Calculations
117
Bibliography
122
Chapter
7.
Prism and Mirror Systems
123
7.1
Introduction
123
7.2
Dispersing Prisms
123
7.3
The "Thin" Prism
125
7.4
Minimum Deviation
126
7.5
The Achromatic Prism and the Direct Vision Prism
126
7.6
Total Internal Reflection
128
7.7
Reflection from a Plane Surface
129
7.8
Plane Parallel Plates
132
7.9
The Right-Angle Prism
136
7.10
The Roof Prism
139
7.11
Erecting Prism Systems
141
7.12
Inversion Prisms
144
7.13
The Penta Prism
145
7.14
Rhomboids and Beamsplitters
146
7.15
Plane Mirrors
149
7.16
The Design of Prism and Reflector Systems
149
7.17
Analysis of Fabrication Errors
154
Bibliography
155
Chapter
8.
Characteristics of the Human Eye
157
8.1
Introduction
157
8.2
The Structure of the Eye
158
8.3
Characteristics of the Eye
160
8.4
Defects of the Eye
168
Bibliography
170
Experiments
171
Exercises
172
Chapter
9.
Stops, Apertures, Pupils and Diffraction
175
9.1
Introduction
175
9.2
The Aperture Stop and Pupils
176
9.3
The Field Stop
177
9.4
Vignetting
177
9.5
Glare Stops, Cold Stops, and Baffles
179
9.6
The Telecentric Stop
182
9.7
Apertures and Image Illumination
—
/-Number and Cosine-Fourth
183
9.8
Depth of Focus
186
9.9
Diffraction Effects of Apertures
188
9.10
Resolution of Optical Systems
192
9.11
Diffraction of a Gaussian (Laser) Beam
195
9.12
The Fourier Transform Lens and Spatial Filtering
199
Bibliography
200
Exercises
201
Chapter
10.
Optical Materials
205
10.1
Reflection, Absorption, Dispersion
205
10.2
Optical Glass
210
10.3
Special Glasses
216
10.4
Crystalline Materials
219
10.5
Plastic Optical Materials
221
10.6
Absorption Filters
224
10.7
Diffusing Materials and Projection Screens
227
10.8
Polarizing Materials
230
10.9
Cements and Liquids
232
Bibliography
233
Exercises
234
Chapter
11.
Optical Coatings
237
11.1
Dielectric Reflection and Interference Filters
237
11.2
Reflectors
247
11.3
Reticles
250
Bibliography
251
Exercises
252
Chapter
12.
Principles of
Radiometry
and Photometry
253
12.1
Introduction
253
12.2
The Inverse Square Law; Intensity
254
12.3
Radiance and Lambert's Law
255
12.4
Radiation into a Hemisphere
256
12.5
Irradiance Produced by a Diffuse Source
257
12.6
The
Radiometry
of Images
259
12.7
Spectral
Radiometry
263
12.8
Blackbody
Radiation
264
12.9
Photometry
270
12.10
Illumination Devices
277
Bibliography
282
Exercises
283
Chapter
13.
Optical System Layout
287
13.1
Telescopes, Afocal Systems
287
13.2
Field Lenses and Relay Systems
291
13.3
Exit Pupils, the Eye, and Resolution
293
13.4
The Simple Microscope or Magnifier
303
13.5
The Compound Microscope
305
13.6 Rangefinders 307
13.7
Radiometer and Detector Optics
311
13.8
Fiber Optics
318
13.9
Anamorphic Systems
323
13.10
Variable-Power (Zoom) Systems
328
13.11
The
Diffrattive
Surface
333
Bibliography
334
Exercises
334
Chapter
14.
Case Studies in System Layout
339
14.1
Introduction
339
14.2
Telephoto Lens
340
14.3
Retrofocus Lens
341
14.4
Relay System
342
14.5
Aperture Stop for Relay System of Sec.
14.4 343
14.6
Short Range Telescope
344
14.7
Field Lens for Sec.
14.6 347
14.8
Raytrace of Sec.
14.7 348
14.9 125
Power Microscope
349
14.10
Brueke
125
x
Magnifier
350
14.11
A 4x Mechanically Compensated Zoom Lens
351
14.12
Doing System Layout by Computer
356
14.13
An Athermalized Mid-IR System with an External Cold Stop
357
Chapter
15.
Wave-Front Aberrations and MTF
365
15.1
Introduction
365
15.2
Optical Path Difference: Focus Shift
366
15.3
Optical Path Difference: Spherical Aberration
367
15.4
Aberration Tolerances
373
15.5
Image Energy Distribution (Geometric)
379
15.6
Spread Functions
—
Point and Line
380
15.7
Geometric Spot Size Due to Spherical Aberration
381
15.8
The Modulation Transfer Function
385
15.9
Square-Wave vs. Sine-Wave Targets
391
15.10
Special Modulation Transfer Functions:
Diffraction-Limited Systems
392
15.11
Radial Energy Distribution
401
15.12
Point Spread Functions for the Primary Aberrations
402
Bibliography
407
Exercises
408
Chapter
16.
The Basics of Lens Design
409
16.1
Introduction
409
16.2
The Simple Meniscus Camera Lens
411
16.3
The Symmetrical Principle
417
16.4
Achromatic Telescope Objectives (Thin-Lens Theory)
417
16.5
Achromatic Telescope Objectives (Design Forms)
421
16.6
The Diffractive Surface in Lens Design
430
16.7
The Cooke Triplet Anastigmat: Third-Order Theory
435
16.8
Automatic Design by Electronic Computer
446
16.9
Practical Considerations
451
Bibliography
453
Exercises
454
Chapter
17.
Lens Design for Eyepieces, Microscopes, Cameras, etc.
457
17.1
Telescope Systems and Eyepieces
457
17.2
Microscope Objectives
466
17.3
Photographic Objectives
473
17.4
Condenser Systems
494
17.5
Aberration Characteristics of Simple Lenses
498
Bibliography
501
Exercises
501
Chapter
18.
Design of Mirror and Catadioptric Systems
503
18.1
Reflecting Systems
503
18.2
The Spherical Mirror
503
18.3
The Paraboloid
Ref
lector
506
18.4
The Ellipsoid and
Hyperboloid 507
18.5
Equations for Two-Mirror Systems
508
18.6
Conic Section through the Origin
513
18.7
The Schmidt System
515
χ
Contents
18.8
The Mangin
Mirror
517
18.9
The
Bouwers
(Maksutov) System
519
18.10
The Rapid Estimation of Blur Sizes for Simple Optical Systems
522
Bibliography
526
Exercises
527
Chapter
19.
Selected Lens Designs, Analyzed and Annotated
529
19.1
Introduction
529
19.2
Lens Data Tables
529
19.3
Raytrace Figures
530
19.4
A Note Re the Modulation Transfer Function
531
19.5
Index to the Lenses
532
19.6
The Lenses
534
Bibliography
597
Chapter
20.
The Practice of Optical Engineering
599
20.1
Optical Manufacture
599
20.2
Optical Specifications and Tolerances
610
20.3
Optical Mounting Techniques
628
20.4
Optical Laboratory Practice
633
20.5
Tolerance Budget Example
652
Bibliography
656
Chapter
21.
Getting the Most Out of "Stock" Lenses
659
21.1
Introduction
659
21.2
Stock Lenses
659
21.3
Some Simple Measurements
661
21.4
System Mock-up and Test
665
21.5
Aberration Considerations
668
21.6
How to Use a Singlet (Single Element)
671
21.7
How to Use a Cemented Doublet
675
21.8
Combinations of Stock Lenses
676
21.9
Sources
684
Appendix A. Raytracing and Aberration Calculation
687
Appendix B. Some Standard Dimensions
707
Glossary
709
Index
733 |
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| dewey-full | 621.36 |
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| dewey-search | 621.36 |
| dewey-sort | 3621.36 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 4. ed. |
| format | Book |
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| illustrated | Illustrated |
| index_date | 2024-07-02T19:25:21Z |
| indexdate | 2024-07-09T21:09:53Z |
| institution | BVB |
| isbn | 0071476873 9780071476874 |
| language | English |
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| spelling | Smith, Warren J. Verfasser aut Modern optical engineering the design of optical systems Warren J. Smith 4. ed. New York [u.a.] McGraw-Hill 2008 XIII, 754 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier McGraw-Hill series on optical and electro-optical engineering Optique - Instruments - Conception et construction Optical instruments Design and construction Technische Optik (DE-588)4078181-1 gnd rswk-swf Optisches Instrument (DE-588)4140457-9 gnd rswk-swf Entwurf (DE-588)4121208-3 gnd rswk-swf Technische Optik (DE-588)4078181-1 s Optisches Instrument (DE-588)4140457-9 s Entwurf (DE-588)4121208-3 s 1\p DE-604 Digitalisierung UB Passau application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016256181&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Smith, Warren J. Modern optical engineering the design of optical systems Optique - Instruments - Conception et construction Optical instruments Design and construction Technische Optik (DE-588)4078181-1 gnd Optisches Instrument (DE-588)4140457-9 gnd Entwurf (DE-588)4121208-3 gnd |
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| title | Modern optical engineering the design of optical systems |
| title_auth | Modern optical engineering the design of optical systems |
| title_exact_search | Modern optical engineering the design of optical systems |
| title_exact_search_txtP | Modern optical engineering the design of optical systems |
| title_full | Modern optical engineering the design of optical systems Warren J. Smith |
| title_fullStr | Modern optical engineering the design of optical systems Warren J. Smith |
| title_full_unstemmed | Modern optical engineering the design of optical systems Warren J. Smith |
| title_short | Modern optical engineering |
| title_sort | modern optical engineering the design of optical systems |
| title_sub | the design of optical systems |
| topic | Optique - Instruments - Conception et construction Optical instruments Design and construction Technische Optik (DE-588)4078181-1 gnd Optisches Instrument (DE-588)4140457-9 gnd Entwurf (DE-588)4121208-3 gnd |
| topic_facet | Optique - Instruments - Conception et construction Optical instruments Design and construction Technische Optik Optisches Instrument Entwurf |
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