Verfügbarkeit: Geometrical optics and optical design

Geometrical optics and optical design:

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Bibliographische Detailangaben
Hauptverfasser:	Mouroulis, Pantazis (VerfasserIn), Macdonald, John 1943- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Oxford Univ. Press 1997
Schriftenreihe:	Oxford series in optical and imaging sciences 7,[2]
Schlagworte:	Geometrische optica Optique - Instruments - Conception et construction Optique géométrique Geometrical optics Optical instruments > Design and construction Geometrische Optik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Fälschlich als Bd. 7 bezeichnet
Beschreibung:	XIV, 354 S. graph. Darst.
ISBN:	0195089316

Internformat

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Datensatz im Suchindex

_version_	1804125798380077056
adam_text	GEOMETRICAL OPTICS AND OPTICAL DESIGN PANTAZIS MOUROULIS ASSOCIATE PROFESSOR CENTER FOR IMAGING SCIENCE ROCHESTER INSTITUTE OF TECHNOLOGY JOHN MACDONALD SENIOR LECTURER PHYSICS DEPARTMENT UNIVERSITY OF READING NEW YORK OXFORD OXFORD UNIVERSITY PRESS 1997 CONTENTS RAYS AND THE FOUNDATIONS OF GEOMETRICAL OPTICS 1.1. WAVES, WAVEFRONTS, AND RAYS 3 1.1.1. THE PINHOLE CAMERA 5 1.2. PROPAGATION OF WAVEFRONTS, REFLECTION, REFRACTION 6 1.3. FERMAT S PRINCIPLE 10 1.4. IRRADIANCE AND THE INVERSE-SQUARE LAW 13 1.5. THE BASIC POSTULATES OF GEOMETRICAL OPTICS 15 REVIEW OF ELEMENTARY RAY OPTICS 18 2.1. PLANE SURFACES 18 2.1.1. REFLECTING SURFACES 19 2.1.2. REFRACTING SURFACES 20 2.2. CURVED SURFACES: FOCUSING 23 2.2.1. FOCUSING IN THE PARAXIAL REGION 23 2.2.2. GRAPHICAL RAY TRACING FOR THIN LENSES 27 2.2.3. GRAPHICAL RAY TRACING FOR MIRRORS 31 IMAGERY BY A SINGLE SURFACE AND A THIN LENS 38 3.1. THE SIGN CONVENTION 38 3.2. THE PARAXIAL APPROXIMATION 39 X * CONTENTS 3.3. IMAGERY BY A SINGLE SURFACE 40 3.3.1. THE CONJUGATE EQUATION 40 3.3.2. POWER AND FOCAL LENGTHS OF A SURFACE 42 3.4. MIRRORS 43 3.5. IMAGERY BY A THIN LENS 44 3.5.1. THIN LENS CONJUGATE EQUATION 44 3.5.2. POWER OF A THIN LENS IN AIR 45 3.5.3. FOCAL LENGTHS OF A THIN LENS 46 3.5.4. THIN LENS REFRACTION: THE GENERAL CASE 47 3.5.5. MANY SURFACES IN CONTACT 48 3.5.6. THROW 49 3.6. IMAGERY OF AN EXTENDED OBJECT. MAGNIFICATION 50 3.7. THE ONE-COMPONENT DESIGN PROBLEM 52 3.8. OTHER TYPES OF MAGNIFICATION 54 3.8.1. THE ANGULAR SIZE OF AN OBJECT 54 3.8.2. VISUAL MAGNIFICATION 55 3.8.3. LONGITUDINAL MAGNIFICATION. IMAGERY OF A VOLUME 57 4. GAUSSIAN OPTICS 62 4.1. THE PARAXIAL HEIGHT AND ANGLE VARIABLES 62 4.2. PARAXIAL RAY TRACING FOR SYSTEMS OF MANY SURFACES 64 4.2.1. NOTATION 64 4.2.2. MAGNIFICATION 64 4.2.3. PARAXIAL RAY TRACING THROUGH MANY SURFACES 65 4.3. THE OPTICAL INVARIANT 68 4.4. PRINCIPAL PLANES 70 AAA. DEFINITION AND PROPERTIES OF THE PRINCIPAL PLANES 70 4.4.2. POWER AND FOCAL LENGTHS OF A GENERAL SYSTEM 73 4.4.3. REFERENCE TO AN ARBITRARY SET OF CONJUGATES 76 4.4.4. AFOCAL SYSTEMS 77 4.4.5. LOCATION OF PRINCIPAL PLANES 78 4.5. POWER AND PRINCIPAL PLANES OF A SYSTEM OF TWO SEPARATED COMPONENTS 80 4.6. THICK LENSES: POWER AND LOCATION OF PRINCIPAL PLANES 82 4.7. NODAL POINTS, MEASUREMENT OF FOCAL LENGTH 83 4.8. ADDITIONAL TOPICS IN GAUSSIAN OPTICS 85 4.8.1. NEWTON S FORM OF THE CONJUGATE EQUATION 85 4.8.2. IMAGERY OF A TILTED PLANE 85 4.9. SUMMARY OF GAUSSIAN OPTICS 87 4.10. THE TWO-COMPONENT DESIGN PROBLEM 88 CONTENTS * XI 5. PUTTING IT ALL TOGETHER 94 5.1. STOPS AND PUPILS 94 5.1.1. ENTRANCE AND EXIT PUPILS 95 5.1.2. NUMERICAL APERTURE, F NUMBER 97 5.1.3. DEPTH OF FOCUS, DEPTH OF FIELD 100 5.1.4. PUPILS: OFF-AXIS IMAGERY 104 5.1.5. PUPIL MATCHING 104 5.1.6. PARAXIAL MARGINAL AND PUPIL RAYS 105 5.1.7. HOW TO FIND THE STOPS 107 5.1.8. SIZE OF A LENS OR SURFACE (CLEAR APERTURE) 108 5.1.9. TWO-RAY FORMS OF * 108 5.2. SIGNIFICANCE AND USE OF THE MARGINAL AND PUPIL RAYS 111 5.2.1. CONNECTING PARAXIAL AND FINITE OPTICS 111 5.2.2. THE SINE CONDITION 112 5.2.3. THE TANGENT CONDITION 114 5.2.4. GAUSSIAN PREDESIGN 115 5.2.5. THE TWO-LENS SYSTEM WITH FIXED PUPIL POSITIONS 117 5.2.6. THE Y-Y DIAGRAM 118 5.3. LIGHT FLUX TRANSMISSION THROUGH OPTICAL SYSTEMS 119 5.3.1. RADIOMETRY VERSUS PHOTOMETRY 119 5.3.2. RADIOMETRIC (PHOTOMETRIC) QUANTITIES AND UNITS 120 5.3.3. FLUX EMITTED INTO A CONE BY A LAMBERTIAN SOURCE 123 5.3.4. FLUX COLLECTED BY A LENS 125 5.3.5. IRRADIANCE OF AN IMAGE 126 5.3.6. RADIANCE (LUMINANCE) OF AN AERIAL IMAGE 127 5.3.7. PHOTOMETRY OF ILLUMINATION SYSTEMS 128 5.3.8. OFF-AXIS ILLUMINATION 130 5.3.9. ILLUMINANCE FROM A LARGE SOURCE 131 5.3.10. LUMINANCE OF A DISTANT SOURCE 132 6. GAUSSIAN OPTICS OF OPTICAL INSTRUMENTS AND COMPONENTS 137 6.1. THE TELESCOPE 137 6.1.1. VISUAL TELESCOPES 137 6.1.2. ASTRONOMICAL TELESCOPES AND RESOLUTION 140 6.1.3. INFORMATION CAPACITY OF AN OPTICAL SYSTEM 141 6.1.4. LASER BEAM EXPANDER 141 6.2. THE MICROSCOPE 142 6.2.1. MAGNIFYING POWER AND RESOLUTION 142 6.2.2. MICROSCOPE ILLUMINATION SYSTEMS 144 6.3. PROJECTION SYSTEMS 147 6.3.1. THE OVERHEAD PROJECTOR 147 6.3.2. ASPHERICS IN ILLUMINATION SYSTEMS 148 6.3.3. OTHER PROJECTION SYSTEMS 150 6.4. THE EYE 151 6.4.1. BASIC ANATOMY 151 6.4.2. GEOMETRICAL PARAMETERS 152 XII * CONTENTS 6.4.3. SCENE LUMINANCE AND RETINAL ILLUMINANCE 152 6.4.4. REFRACTIVE EFFECTS AND ACCOMMODATION 155 6.4.5. RESOLUTION AND ACUITY 155 6.4.6. CONTRAST SENSITIVITY 156 6.5. REFLECTING PRISMS 157 6.5.1. GEOMETRICAL ASPECTS OF REFLECTION 158 6.5.2. TUNNEL DIAGRAM. EFFECT OF A PLANE BLOCK OF GLASS 159 6.5.3. COMMON PRISM TYPES 160 6.5.4. SOME INSTRUMENTAL APPLICATIONS OF REFLECTING PRISMS 163 6.6. CYLINDRICAL AND ANAMORPHIC OPTICS 165 6.6.1. IMAGE OF A POINT THROUGH A CYLINDRICAL LENS 165 6.6.2. IMAGE ILLUMINANCE THROUGH A CYLINDRICAL LENS 166 6.7. GRADIENT INDEX OPTICS 168 6.7.1. SNELL S LAW 168 6.7.2. THE PARABOLIC INDEX PROFILE 169 6.7.3. PARAXIAL RAY TRACING FOR GRADIENT INDEX MEDIA 171 6.7 .4. GAUSSIAN CONSTANTS OF GRIN RODS 172 6.7.5. THE OPTICAL INVARIANT 173 6.8. DIFFRACTIVE OPTICS 173 6.8.1. THE DIFFRACTION GRATING 173 6.8.2. HOLOGRAPHIC OPTICAL ELEMENTS 176 6.8.3. BINARY OPTICS 183 7. INTRODUCTION TO ABERRATIONS 188 7.1. CHROMATIC ABERRATION 188 7.1.1. CHARACTERIZATION OF DISPERSION 188 7.1.2. CHROMATIC EFFECTS FOR A THIN LENS 191 7.1.3. THE ACHROMATIC DOUBLET AND RELATED CONCEPTS 194 7.1.4. SECONDARY SPECTRUM. APOCHROMATIC CORRECTION 195 7.2. INTRODUCTION TO MONOCHROMATIC ABERRATIONS 198 7.2.1. THE ORIGIN OF MONOCHROMATIC ABERRATIONS 198 7.2.2. WAVEFRONT AND RAY ABERRATIONS 199 7.2.3. CANONICAL COORDINATES 203 7.3. THE WAVE ABERRATION FUNCTION. CLASSIFICATION OF ABERRATIONS 204 7.3.1. THE WAVE ABERRATION POLYNOMIAL FOR ROTATIONALLY SYMMETRIC SYSTEMS 204 7.3.2. CLASSICAL ABERRATION TYPES 207 7.3.3. RAY INTERSECTION PATTERNS AND SPOT DIAGRAMS 212 7.3.4. LONGITUDINAL ABERRATION 218 7.3.5. ABERRATION TOLERANCES 220 7.3.6. EXAMPLE: COMPUTATION OF WAVE AND RAY ABERRATION 222 8. COMPUTATION OF PRIMARY ABERRATIONS 227 8.1. THE SEIDEL ABERRATION COEFFICIENTS 227 8.1.1. THE PARAXIAL REFRACTION INVARIANTS 227 CONTENTS * XIII 8.1.2. SURFACE CONTRIBUTION TO THE WAVEFRONT ABERRATION 228 8.1.3. THE SEIDEL ABERRATION FORMULAE 230 8.1.4. SPECIAL ABERRATION-FREE CASES. THE APLANATIC MENISCUS 234 8.1.5. CHROMATIC ABERRATIONS 236 8.1.6. DESIGN EXAMPLE: A SIMPLE CAMERA OBJECTIVE 238 8.2. ASTIGMATISM AND FIELD CURVATURE 241 8.3. PRIMARY ABERRATIONS OF A REFLECTING PRISM (PLANE-PARALLEL PLATES) 242 8.4. PRIMARY ABERRATIONS OF A SPHERICAL MIRROR 243 9. ABERRATIONS OF A THIN LENS IN AIR 246 9.1. CENTRAL ABERRATIONS (STOP AT THE LENS) 246 9.1.1. SHAPE-INDEPENDENT ABERRATIONS 248 9.1.2. THE SHAPE FACTOR AND THE MAGNIFICATION PARAMETER 248 9.1.3. SHAPE-DEPENDENT ABERRATIONS 250 9.1.4. THE CORRECTED DOUBLET 253 9.1.5. A PRACTICAL ABERRATION PRIMER 255 9.2. THIN-LENS ABERRATIONS WITH A REMOTE STOP 257 9.2.1. THE ECCENTRICITY PARAMETER 257 9.2.2. STOP-SHIFT EFFECTS FOR A SINGLE SURFACE 258 9.2.3. STOP-SHIFT EFFECTS FOR A GENERAL SYSTEM AND A THIN LENS 259 9.2.4. STOP-SHIFT THEOREMS 260 9.2.5. EXAMPLE: THE PETZVAL PROJECTION LENS 261 9.3. THE TWO- AND THREE-COMPONENT SOLUTION WITH FIXED ** 264 9.3.1. THE TWO-COMPONENT SOLUTION 264 9.3.2. THE THREE-COMPONENT SOLUTION 265 9.3.3. THE COOKE TRIPLET 267 10. OPTICAL DESIGN 270 10.1. THE OPTICAL DESIGN PROCESS 270 10.2. MAKING THE SYSTEM REAL: THICKENING, TOTAL ABERRATION 272 10.3. DESIGN EXAMPLE: OPERATING SPECTACLES 277 10.4. OPTIMIZATION 280 10.5. PUPILS AND PUPIL IMAGERY 282 10.5.1. PUPIL ABERRATION 282 10.5.2. OFF-AXIS PUPIL SHAPE AND VIGNETTING 284 10.5.3. OFF-AXIS IMAGE FORMATION AND CANONICAL COORDINATES 285 10.6. ASPHERICS 287 10.7. A BRIEF GUIDE TO OPTICAL DESIGN SOFTWARE 289 XIV * CONTENTS APPENDIX 1. MATRIX METHODS IN PARAXIAL OPTICS 294 AL.L. THE CONJUGATE MATRIX 296 A 1.2. RELATION BETWEEN A,B,C,D AND 5,5 ,* 298 APPENDIX 2. GAUSSIAN BEAM RAY TRACING 300 A2.1. BASIC CHARACTERISTICS OF GAUSSIAN BEAMS 300 A2.2. PARAXIAL EQUATIONS FOR GAUSSIAN BEAMS 303 A2.3. THIN LENS IN AIR 306 A2.4. THE GENERAL SYSTEM: PRINCIPAL PLANES 308 A2.5. TWO-RAY FORMULATION OF GAUSSIAN BEAMS 311 APPENDIX 3. FINITE RAY TRACING 317 A3.1. VECTOR FORM OF SNELL S LAW 318 A3.2. THE SURFACE EQUATION AND THE SURFACE NORMAL 318 A3.3. SURFACE TRANSFER 319 A3.4. REFRACTION 320 APPENDIX 4. SHIFT OF FOCUS 322 A4.1. LONGITUDINAL FOCAL SHIFT 322 A4.2. TRANSVERSE FOCAL SHIFT 324 APPENDIX 5. TWO COMPUTER PROGRAMS 327 A5.1. THIN APLANATIC DOUBLET DESIGN (STOP AT THE LENS) 327 A5.2. PARAXIAL RAY TRACING AND SEIDEL ABERRATION COMPUTATION 331 APPENDIX 6. THIN-LENS BENDING PROGRAM 341 BIBLIOGRAPHY 349 INDEX 351
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spelling	Mouroulis, Pantazis Verfasser aut Geometrical optics and optical design Pantazis Mouroulis ; John Macdonald New York [u.a.] Oxford Univ. Press 1997 XIV, 354 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford series in optical and imaging sciences 7,[2] Fälschlich als Bd. 7 bezeichnet Geometrische optica gtt Optique - Instruments - Conception et construction ram Optique géométrique ram Geometrical optics Optical instruments Design and construction Geometrische Optik (DE-588)4020241-0 gnd rswk-swf Geometrische Optik (DE-588)4020241-0 s DE-604 Macdonald, John 1943- Verfasser (DE-588)138399727 aut Oxford series in optical and imaging sciences 7,[2] (DE-604)BV008283319 7,2 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007584547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mouroulis, Pantazis Macdonald, John 1943- Geometrical optics and optical design Oxford series in optical and imaging sciences Geometrische optica gtt Optique - Instruments - Conception et construction ram Optique géométrique ram Geometrical optics Optical instruments Design and construction Geometrische Optik (DE-588)4020241-0 gnd
subject_GND	(DE-588)4020241-0
title	Geometrical optics and optical design
title_auth	Geometrical optics and optical design
title_exact_search	Geometrical optics and optical design
title_full	Geometrical optics and optical design Pantazis Mouroulis ; John Macdonald
title_fullStr	Geometrical optics and optical design Pantazis Mouroulis ; John Macdonald
title_full_unstemmed	Geometrical optics and optical design Pantazis Mouroulis ; John Macdonald
title_short	Geometrical optics and optical design
title_sort	geometrical optics and optical design
topic	Geometrische optica gtt Optique - Instruments - Conception et construction ram Optique géométrique ram Geometrical optics Optical instruments Design and construction Geometrische Optik (DE-588)4020241-0 gnd
topic_facet	Geometrische optica Optique - Instruments - Conception et construction Optique géométrique Geometrical optics Optical instruments Design and construction Geometrische Optik
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