Verfügbarkeit: Optical imaging and aberrations

Optical imaging and aberrations: 1 Ray geometrical optics

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1. Verfasser:	Mahajan, Virendra N. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Bellingham, Wash. SPIE Optical Engineering Press 1998
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIII, 469 S. Ill., graph. Darst.
ISBN:	081942515X

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adam_text	OPTICAL IMAGING AND ABERRATIONS PARTI RAY GEOMETRICAL OPTICS VIRENDRA N. MAHAJAN THE AEROSPACE CORPORATION AND THE UNIVERSITY OF SOUTHERN CALIFORNIA S P I E O P T I C A L E N G I N E E R I N G P R E S S A PUBLICATION OF SPIETHE INTERNATIONAL SOCIETY FOR OPTICAL ENGINEERING BELLINGHAM, WASHINGTON USA TABLE OF CONTENTS PART I. RAY GEOMETRICAL OPTICS PREFACE XVII ACKNOWLEDGMENTS XXI SYMBOLS AND NOTATION XXIII CHAPTER 1: GAUSSIAN OPTICS 1 1.1 INTRODUCTION 3 1.2 FOUNDATIONS OF GEOMETRICAL OPTICS 5 1.2.1 FERMAT'S PRINCIPLE 5 1.2.2 LAWS OF GEOMETRICAL OPTICS 8 1.2.3 OPTICAL PATH LENGTHS OF NEIGHBORING RAYS 10 1.2.4 MALUS-DUPIN THEOREM 11 1.2.5 HAMILTON'S POINT CHARACTERISTIC FUNCTION AND DIRECTION OF A RAY 13 1.3 GAUSSIAN IMAGING 14 1.3.1 INTRODUCTION 14 1.3.2 SIGN CONVENTION 14 1.3.3 SPHERICAL REFRACTING SURFACE 15 1.3.3.1 GAUSSIAN IMAGING EQUATION 15 1.3.3.2 FOCAL LENGTHS AND REFRACTING POWER 18 1.3.3.3 MAGNIFICATIONS AND LAGRANGE INVARIANT 19 1.3.3.4 GRAPHICAL IMAGING 22 1.3.3.5 NEWTONIAN IMAGING EQUATION 24 1.3.4 THIN LENS 24 1.3.4.1 GAUSSIAN IMAGING EQUATION 24 1.3.4.2 FOCAL LENGTHS AND REFRACTING POWER 25 1.3.4.3 UNDEVIATED RAY 26 1.3.4.4 MAGNIFICATIONS AND LAGRANGE INVARIANT 28 1.3.4.5 NEWTONIAN IMAGING EQUATION 30 1.3.5 REFRACTING SYSTEMS 31 1.3.5.1 CARDINAL POINTS AND PLANES 31 1.3.5.2 GAUSSIAN IMAGING, FOCAL LENGTHS, AND MAGNIFICATIONS 33 1.3.5.3 NODAL POINTS 36 1.3.5.4 NEWTONIAN IMAGING EQUATION 38 1.3.6 AFOCAL SYSTEMS 38 1.3.7 SPHERICAL REFLECTING SURFACE (SPHERICAL MIRROR) 42 1.3.7.1 GAUSSIAN IMAGING EQUATION 42 1.3.7.2 FOCAL LENGTH AND REFLECTING POWER 44 1.3.7.3 MAGNIFICATIONS AND LAGRANGE INVARIANT 46 1.3.7.4 GRAPHICAL IMAGING 49 1.3.7.5 NEWTONIAN IMAGING EQUATION 52 IX 1.4 PARAXIAL RAY TRACING 52 1.4.1 REFRACTING SURFACE 52 1.4.2 THIN LENS 54 1.4.3 TWO THIN LENSES 57 1.4.4 THICK LENS 59 1.4.5 REFLECTING SURFACE (MIRROR) 62 1.4.6 TWO-MIRROR SYSTEM 65 1.4.7 CATADIOPTRIC SYSTEM: THIN LENS-MIRROR COMBINATION 67 1.5 TWO-RAY LAGRANGE INVARIANT 69 1.6 MATRIX APPROACH TO PARAXIAL RAY TRACING AND GAUSSIAN OPTICS 73 1.6.1 INTRODUCTION 73 1.6.2 SYSTEM MATRIX 73 1.6.3 CONJUGATE MATRIX 77 1.6.4 SYSTEM MATRIX IN TERMS OF GAUSSIAN PARAMETERS 81 1.6.5 GAUSSIAN IMAGING EQUATIONS 81 REFERENCES .- 84 PROBLEMS 85 CHAPTER 2: RADIOMETRY OF IMAGING 89 2.1 INTRODUCTION 91 2.2 STOPS, PUPILS, AND VIGNETTING 92 2.2.1 INTRODUCTION 92 2.2.2 APERTURE STOP, AND ENTRANCE AND EXIT PUPILS 92 2.2.3 CHIEF AND MARGINAL RAYS 94 2.2.4 VIGNETTING 95 2.2.5 SIZE OF AN IMAGING ELEMENT 98 2.2.6 TELECENTRIC APERTURE STOP 98 2.2.7 FIELD STOP, AND ENTRANCE AND EXIT WINDOWS 98 2.3 RADIOMETRY OF POINT SOURCES 100 2.3.1 IRRADIANCE OF A SURFACE 100 2.3.2 FLUX INCIDENT ON A CIRCULAR APERTURE 103 2.4 RADIOMETRY OF EXTENDED SOURCES 104 2.4.1 LAMBERTIAN SURFACE 104 2.4.2 EXITANCE OF A LAMBERTIAN SURFACE 105 2.4.3 RADIANCE OF A TUBE OF RAYS 106 2.4.4 IRRADIANCE BY A LAMBERTIAN SURFACE ELEMENT 107 2.4.5 IRRADIANCE BY A LAMBERTIAN DISC 108 2.5 RADIOMETRY OF POINT OBJECT IMAGING 112 2.6 RADIOMETRY OF EXTENDED OBJECT IMAGING 114 2.6.1 IMAGE RADIANCE 114 2.6.2 PUPIL DISTORTION 117 2.6.3 IMAGE IRRADIANCE: APERTURE STOP IN FRONT OF THE SYSTEM 118 2.6.4 IMAGE IRRADIANCE: APERTURE STOP IN BACK OF THE SYSTEM 121 X 2.6.5 TELECENTRIC SYSTEMS 123 2.6.6 THROUGHPUT 123 2.6.7 CONDITION FOR UNIFORM IMAGE IRRADIANCE 123 2.6.8 CONCENTRIC SYSTEMS 125 2.7 PHOTOMETRY 126 2.7.1 PHOTOMETRIC QUANTITIES AND SPECTRAL RESPONSE OF THE HUMAN EYE 126 2.7.2 IMAGING BY A HUMAN EYE 127 2.7.3 BRIGHTNESS OF A LAMBERTIAN SURFACE 129 2.7.4 OBSERVING STARS IN THE DAYTIME 130 APPENDIX: RADIANCE THEOREM 134 REFERENCES 136 PROBLEMS 137 CHAPTER 3: OPTICAL ABERRATIONS 139 3.1 INTRODUCTION 141 3.2 WAVE AND RAY ABERRATIONS 142 3.2.1 DEFINITIONS 142 3.2.2 RELATIONSHIP BETWEEN WAVE AND RAY ABERRATIONS 145 3.3 DEFOCUS ABERRATION 148 3.4 WAVEFRONTTILT 150 3.5 ABERRATION FUNCTION OF A ROTATIONALLY SYMMETRIC SYSTEM 152 3.5.1 ROTATIONAL INVARIANTS 152 3.5.2 POWER-SERIES EXPANSION 155 3.5.2.1 EXPLICIT DEPENDENCE ON OBJECT COORDINATES 156 3.5.2.2 NO EXPLICIT DEPENDENCE ON OBJECT COORDINATES 159 3.5.3 ZERNIKE CIRCLE-POLYNOMIAL EXPANSION 163 3.5.4 RELATIONSHIPS BETWEEN COEFFICIENTS OF POWER-SERIES AND ZERNIKE POLYNOMIAL EXPANSIONS 168 3.6 OBSERVATION OF ABERRATIONS 169 3.6. 1 PRIMARY ABERRATIONS 172 3.6.2 INTERFEROGRAMS 173 3.7 CONDITIONS FOR PERFECT IMAGING 178 3.7.1 IMAGING OF *-D OBJECT 178 3.7.2 IMAGING OF A 2-D TRANSVERSE OBJECT 181 3.7.3 IMAGING OF A 1-D AXIAL OBJECT 183 3.7.4 LINEAR COMA AND THE SINE CONDITION 184 3.7.5 OPTICAL SINE THEOREM 186 3.7.6 LINEAR COMA AND OFFENSE AGAINST THE SINE CONDITION 188 APPENDIX A: DEGREE OF APPROXIMATION IN EQ. (3-11) 192 APPENDIX B: WAVE AND RAY ABERRATIONS: ALTERNATIVE DEFINITION AND DERIVATION 194 REFERENCES 200 PROBLEMS 201 XI CHAPTER 4: GEOMETRICAL POINT-SPREAD FUNCTION 203 4.1 INTRODUCTION 205 4.2 THEORY 205 4.3 APPLICATION TO PRIMARY ABERRATIONS 209 4.3.1 SPHERICAL ABERRATION 210 4.3.2 COMA 217 4.3.3 ASTIGMATISM AND FIELD CURVATURE 224 4.3.4 DISTORTION 233 4.4 BALANCED ABERRATIONS FOR MINIMUM RMS SPOT RADIUS 235 4.5 SPOT DIAGRAMS 236 4.6 SUMMARY OF RESULTS 239 4.6. 1 SPHERICAL ABERRATION 240 4.6.2 COMA 240 4.6.3 ASTIGMATISM AND FIELD CURVATURE 241 4.6.4 DISTORTION 242 4.6.5 ABERRATION TOLERANCE 242 REFERENCES 243 PROBLEMS 244 CHAPTER 5: CALCULATION OF PRIMARY ABERRATIONS: REFRACTING SYSTEMS 245 5.1 INTRODUCTION 247 5.2 SPHERICAL REFRACTING SURFACE WITH APERTURE STOP AT THE SURFACE 249 5.2.1 ON-AXIS POINTOBJECT 249 5.2.2 OFF-AXIS POINT OBJECT 252 5.2.2.1 ABERRATIONS WITH RESPECT TO PETZVAL IMAGE POINT 253 5.2.2.2 ABERRATIONS WITH RESPECT TO GAUSSIAN IMAGE POINT 259 5.3 SPHERICAL REFRACTING SURFACE WITH APERTURE STOP NOT AT THE SURFACE 261 5.3.1 ON-AXIS POINTOBJECT 262 5.3.2 OFF-AXIS POINT OBJECT 264 5.4 APLANATIC POINTS OF A SPHERICAL REFRACTING SURFACE 266 5.5 CONIC REFRACTING SURFACE 271 5.5.1 SAG OF A CONIC SURFACE 271 5.5.2 ON-AXIS POINT OBJECT 275 5.5.3 OFF-AXIS POINT OBJECT 278 5.6 GENERAL ASPHERICAL REFRACTING SURFACE 281 5.7 SERIES OF COAXIAL REFRACTING (AND REFLECTING) SURFACES 281 5.7.1 GENERAL IMAGING SYSTEM 282 5.7.2 PETZVAL CURVATURE AND CORRESPONDING FIELD CURVATURE WAVE ABERRATION . 282 5.7.3 RELATIONSHIP AMONG PETZVAL CURVATURE, FIELD CURVATURE, AND ASTIGMATISM WAVE ABERRATION COEFFICIENTS 287 XII 5.8 ABERRATION FUNCTION IN TERMS OF SEIDEL SUMS OR SEIDEL COEFFICIENTS 287 5.9 EFFECT OF CHANGE IN APERTURE STOP POSITION ON THE ABERRATION FUNCTION 290 5.9.1 CHANGE OF PEAK ABERRATION COEFFICIENTS 291 5.9.2 ILLUSTRATION OF THE EFFECT OF APERTURE-STOP SHIFT ON COMA AND DISTORTION 295 5.9.3 ABERRATIONS OF A SPHERICAL REFRACTING SURFACE WITH APERTURE STOP NOT AT THE SURFACE OBTAINED FROM THOSE WITH STOP AT THE SURFACE 297 5.10 THIN LENS 299 5.10.1 IMAGING RELATIONS 300 5.10.2 THIN LENS WITH SPHERICAL SURFACES AND APERTURE STOP AT THE LENS 301 5.10.3 PETZVAL SURFACE 306 5.10.4 SPHERICAL ABERRATION AND COMA 307 5.10.5 APLANATIC LENS 310 5.10.6 THIN LENS WITH CONIC SURFACES 312 5.10.7 THIN LENS WITH APERTURE STOP NOT AT THE LENS 313 5.11 FIELD FLATTENER 314 5.11.1 IMAGING RELATIONS 315 5.11.2 ABERRATION FUNCTION 316 5.12 PLANE-PARALLEL PLATE 318 5.12.1 INTRODUCTION 318 5.12.2 IMAGING RELATIONS 318 5.12.3 ABERRATION FUNCTION 321 5.13 CHROMATIC ABERRATIONS 323 5.13.1 INTRODUCTION 323 5.13.2 SINGLE REFRACTING SURFACE 323 5.13.3 THIN LENS 327 5.13.4 GENERAL SYSTEM: SURFACE-BY-SURFACE APPROACH 331 5.13.5 GENERAL SYSTEM: USE OF PRINCIPAL AND FOCAL POINTS 336 5.13.6 CHROMATIC ABERRATIONS AS WAVE ABERRATIONS 347 5.14 SYMMETRICAL PRINCIPLE 348 5.15 PUPIL ABERRATIONS AND CONJUGATE-SHIFT EQUATIONS 349 5.15.1 INTRODUCTION 349 5.15.2 PUPIL ABERRATIONS 350 5.15.3 CONJUGATE-SHIFT EQUATIONS 355 5.15.4 INVARIANCE OF IMAGE ABERRATIONS 357 5.15.5 SIMULTANEOUS CORRECTION OF ABERRATIONS FOR TWO OR MORE OBJECT POSITIONS 358 REFERENCES 360 PROBLEMS 361 XIII CHAPTER 6: CALCULATION OF PRIMARY ABERRATIONS: REFLECTING AND CATADIOPTRIC SYSTEMS 365 6.1 INTRODUCTION 367 6.2 CONIC REFLECTING SURFACE 367 6.2.1 CONIC SURFACE 367 6.2.2 IMAGING RELATIONS 370 6.2.3 ABERRATION FUNCTION 370 6.3 PETZVAL SURFACE 375 6.4 SPHERICAL MIRROR 377 6.4.1 ABERRATION FUNCTION AND APLANATIC POINTS FOR ARBITRARY LOCATION OF APERTURE STOP 377 6.4.2 APERTURE STOP AT THE MIRROR SURFACE 379 6.4.3 APERTURE STOP AT THE CENTER OF CURVATURE OF MIRROR 38 1 6.5 PARABOLOIDAL MIRROR 384 6.6 CATADIOPTRIC SYSTEMS 385 6.6.1 INTRODUCTION 385 6.6.2 SCHMIDT CAMERA 385 6.6.3 BOUWERS-MAKSUTOV CAMERA 394 6.7 BEAM EXPANDER 398 6.7.1 INTRODUCTION 398 6.7.2 GAUSSIAN PARAMETERS 398 6.7.3 ABERRATION CONTRIBUTED BY PRIMARY MIRROR 400 6.7.4 ABERRATION CONTRIBUTED BY SECONDARY MIRROR 401 6.7.5 SYSTEM ABERRATION 402 6.8 TWO-MIRROR ASTRONOMICAL TELESCOPES 402 6.8.1 INTRODUCTION 402 6.8.2 GAUSSIAN PARAMETERS 403 6.8.3 PETZVAL SURFACE 408 6.8.4 ABERRATION CONTRIBUTED BY PRIMARY MIRROR 408 6.8.5 ABERRATION CONTRIBUTED BY SECONDARY MIRROR 410 6.8.6 SYSTEM ABERRATION 412 6.8.7 CLASSICAL CASSEGRAIN AND GREGORIAN TELESCOPES 413 6.8.8 APLANATIC CASSEGRAIN AND GREGORIAN TELESCOPES 416 6.8.9 AFOCAL TELESCOPE 416 6.8.10 COUDER ANASTIGMATIC TELESCOPES 417 6.8.11 SCHWARZSCHILD TELESCOPE 418 6.8.12 DALL-KIRKHAM TELESCOPE 420 6.9 ASTRONOMICAL TELESCOPES USING ASPHERIC PLATES 422 6.9.1 INTRODUCTION 422 6.9.2 ASPHERIC PLATE IN A DIVERGING OBJECT BEAM 422 6.9.3 ASPHERIC PLATE IN A CONVERGING IMAGE BEAM 425 6.9.4 ASPHERIC PLATE AND A CONIC MIRROR 426 6.9.5 ASPHERIC PLATE AND A TWO-MIRROR TELESCOPE 428 XIV REFERENCES 431 PROBLEMS 432 CHAPTER 7: CALCULATION OF PRIMARY ABERRATIONS: PERTURBED OPTICAL SYSTEMS 435 7.1 INTRODUCTION 437 7.2 ABERRATIONS OF A MISALIGNED SURFACE 438 7.2.1 DECENTERED SURFACE 438 7.2.2 TILTED SURFACE 442 7.2.3 DESPACED SURFACE 444 7.3 ABERRATIONS OF PERTURBED TWO-MIRROR TELESCOPES 445 7.3.1 DECENTERED SECONDARY MIRROR 445 7.3.2 TILTED SECONDARY MIRROR 447 7.3.3 DECENTERED AND TILTED SECONDARY MIRROR 448 7.3.4 DESPACED SECONDARY MIRROR 451 7.4 FABRICATION ERRORS 454 7.4.1 REFRACTING SURFACE 454 7.4.2 REFLECTING SURFACE 456 REFERENCES 458 PROBLEMS 459 BIBLIOGRAPHY 461 INDEX 463 XV
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spelling	Mahajan, Virendra N. Verfasser aut Optical imaging and aberrations 1 Ray geometrical optics Virendra N. Mahajan Bellingham, Wash. SPIE Optical Engineering Press 1998 XXIII, 469 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier (DE-604)BV012604491 1 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008560197&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mahajan, Virendra N. Optical imaging and aberrations
title	Optical imaging and aberrations
title_auth	Optical imaging and aberrations
title_exact_search	Optical imaging and aberrations
title_full	Optical imaging and aberrations 1 Ray geometrical optics Virendra N. Mahajan
title_fullStr	Optical imaging and aberrations 1 Ray geometrical optics Virendra N. Mahajan
title_full_unstemmed	Optical imaging and aberrations 1 Ray geometrical optics Virendra N. Mahajan
title_short	Optical imaging and aberrations
title_sort	optical imaging and aberrations ray geometrical optics
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008560197&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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work_keys_str_mv	AT mahajanvirendran opticalimagingandaberrations1

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