Verfügbarkeit: Diffraction-limited imaging with large and moderate telescopes

$Diffraction-limited imaging with large and moderate telescopes$

Diffraction-limited imaging with large and moderate telescopes:

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Bibliographische Detailangaben
1. Verfasser:	Saha, Swapan K. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey [u.a.] World Scientific 2007
Schlagworte:	Bilderzeugung Beugung Fernrohr
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 579 - 594
Beschreibung:	XXIX, 604 S. Ill., graph. Darst.

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Datensatz im Suchindex

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adam_text	SWAPAN K. SAHA INDIAN JNSTITUTE OF ASTROPHYSICS BANGALORE, INDIA DIFFRACTION-LIMITED IMAGING WITH LARGE AND MODERATE TELESCOPES CONTENTS PREFACE VII PRINCIPAL SYMBOLS XIII LIST OF ACRONYMS XVII 1. INTRODUCTION TO ELECTROMAGNETIC THEORY 1 1.1 INTRODUCTION 1 1.2 MAXWELL S EQUATIONS ! 1 1.2.1 CHARGE CONTINUITY EQUATION ... .. . 3 1.2.2 BOUNDARY CONDITIONS 5 1.3 ENERGY FLUX OF ELECTROMAGNETIC FIELD :7 1.4 CONSERVATION LAW OF THE ELECTROMAGNETIC FIELD 10 1.5 ELECTROMAGNETIC WAVE EQUATIONS 14 1.5.1 THE POYNTING VECTOR AND THE STOKES PARAMETER ... 16 1.5.2 HARMONIC TIME DEPENDENCE AND THE FOURIER TRANSFORM 21 2. WAVE OPTICS AND POLARIZATION 27 2.1 ELECTROMAGNETIC THEORY OF PROPAGATION 27 2.1.1 INTENSITY OF A LIGHT WAVE 28 2.1.2 HARMONIC PLANE WAVES 30 2.1.3 HARMONIC SPHERICAL WAVES 34 2.2 COMPLEX REPRESENTATION OF MONOCHROMATIC LIGHT WAVES ... 35 2.2.1 SUPERPOSITION OF WAVES 37 2.2.2 STANDING WAVES 40 2.2.3 PHASE AND GROUP VELOCITIES 41 2.3 COMPLEX REPRESENTATION OF NON-MONOCHROMATIC FIELDS .... 44 XXII DIFFRACTION-LIMITED IMAGING WITH LARGE AND MODERATE TELESCOPES 2.3.1 CONVOLUTION RELATIONSHIP 47 2.3.2 CASE OF QUASI-MONOCHROMATIC LIGHT 49 2.3.3 SUCCESSIVE WAVE-TRAINS EMITTED BY AN ATOM 51 2.3.4 COHERENCE LENGTH AND COHERENCE TIME . . . . . . . . . 54 2.4 POLARIZATION OF PLANE MONOCHROMATIC WAVES 57 2.4.1 STOKES VECTOR REPRESENTATION ,*. 61 2.4.2 OPTICAL ELEMENTS REQUIRED FOR POLARIMETRY 65 2.4.3 DEGREE OF POLARIZATION 71 2.4.4 TRANSFORMATION OF STOKES PARAMETERS 74 2.4.4.1 POLARIMETER . . 77 2.4.4.2 IMAGING POLARIMETER 79 3. INTERFERENCE AND DIFFRACTION 81 3.1 FUNDAMENTALS OF INTERFERENCE 81 3.2 INTERFERENCE OF TWO MONOCHROMATIC WAVES 81 3.2.1 YOUNG S DOUBLE-SLIT EXPERIMENT 86 3.2.2 MICHELSON S INTERFEROMETER 90 3.2.3 MACH-ZEHNDER INTERFEROMETER 94 3.3 INTERFERENCE WITH QUASI-MONOCHROMATIC WAVES 96 3.4 PROPAGATION OF MUTUAL COHERENCE 102 3.4.1 PROPAGATION LAWS FOR THE MUTUAL COHERENCE 102 3.4.2 WAVE EQUATIONS FOR THE MUTUAL COHERENCE . . . . . . . 104 3.5 DEGREE OF COHERENCE FROM AN EXTENDED INCOHERENT SOURCE: PARTIAL COHERENCE 106 3.5.1 THE VAN CITTERT-ZERNIKE THEOREM 107 3.5.2 COHERENCE AREA 110 3.6 DIFFRACTION 112 3.6.1 DERIVATION OF THE DIFFRACTED FIELD 114 3.6.2 FRESNEL APPROXIMATION 117 3.6.3 FRAUNHOFER APPROXIMATION 119 3.6.3.1 DIFFRACTION BY A RECTANGULAR APERTURE . . . . 121 3.6.3.2 DIFFRACTION BY A CIRCULAR PUPIL 123 4. IMAGE FORMATION 127 4.1 IMAGE OF A SOURCE 127 4.1.1 COHERENT IMAGING . . . 132 4.1.2 INCOHERENT IMAGING 134 4.1.3 OPTICAL TRANSFER FUNCTION . 135 4.1.4 IMAGE IN THE PRESENCE OF ABERRATIONS 139 CONTENTS XXIII 4.2 IMAGING WITH PARTIALLY COHERENT BEAMS 141 4.2.1 EFFECTS OF A TRANSMITTING OBJECT 141 4.2.2 TRANSMISSION OF MUTUAL INTENSITY 143 4.2.3 IMAGES OF TRANS-ILLUMINATED OBJECTS . . . 146 4.3 THE OPTICAL TELESCOPE . . . 149 4.3.1 RESOLVING POWER OF A TELESCOPE 154 4.3.2 TELESCOPE ABERRATIONS 156 5. THEORY OF ATMOSPHERIC TURBULENCE 159 5.1 EARTH S ATMOSPHERE 159 5.2 BASIC FORMULATIONS OF ATMOSPHERIC TURBULENCE 161 5.2.1 TURBULENT FLOWS. 162 5.2.2 INERTIAL SUBRANGE 164 5.2.3 STRUCTURE FUNCTIONS OF THE VELOCITY FIELD 166 5.2.4 KOLMOGOROV SPECTRUM OF THE VELOCITY FIELD 167 5.2.5 STATISTICS OF TEMPERATURE FLUCTUATIONS . . 170 ; 5.2.6 REFRACTIVE INDEX FLUCTUATIONS 172 5.2.7 EXPERIMENTAL VALIDATION OF STRUCTURE CONSTANTS . ; . . 176 5.3 STATISTICAL PROPERTIES OF THE PROPAGATED WAVE THROUGH TURBU- LENCE 179 5.3.1 CONTRIBUTION OF A THIN LAYER 180 5.3.2 COMPUTATION OF PHASE STRUCTURE FUNCTION 182 5.3.3 EFFECT OF FRESNEL DIFFRACTION 184 J 5.3.4 CONTRIBUTION OF MULTIPLE TURBULENT LAYERS ........ 185 5.4 IMAGING IN RANDOMLY INHOMOGENEOUS MEDIA 187 5.4.1 SEEING-LIMITED IMAGES 188 5.4.2 ATMOSPHERIC COHERENCE LENGTH 192 5.4.3 ATMOSPHERIC COHERENCE TIME 195 1 5.4.4 ANISO-PLANATISM 196 ; 5.5 IMAGE MOTION 197 : 5.5.1 VARIANCE DUE TO ANGLE OF ARRIVAL 198 5.5.2 SCINTILLATION 200 5.5.3 TEMPORAL EVOLUTION OF IMAGE MOTION 201 * 5.5.4 IMAGE BLURRING , 202 5.5.5 MEASUREMENT OF RO R 204 5.5.6 SEEING AT THE TELESCOPE SITE 205 5.5.6.1 WIND SHEARS 207 5.5.6.2 DOME SEEING . . . 207 5.5.6.3 MIRROR SEEING 209 XXIV . DIFFRACTION-LIMITED IMAGING WITH LARGE AND MODERATE TELESCOPES 6. SPECKLE IMAGING 211 6.1 SPECKLE PHENOMENA 211 6.1.1 STATISTICAL PROPERTIES OF SPECKLE PATTERN . . . . . : . . 213 6.1.2 SUPERPOSITION OF SPECKLE PATTERNS 215 6.1.3 POWER-SPECTRAL DENSITY 216 6.2 SPECKLE PATTERN INTERFEROMETRY WITH ROUGH SURFACE . L . . . 220 6.2.1 PRINCIPLE OF SPECKLE CORRELATION FRINGE FORMATION . . . 220 6.2.2 SPECKLE CORRELATION FRINGES BY ADDITION 224 6.2.3 SPECKLE CORRELATION FRINGES BY SUBTRACTION 225 6.3 STELLAR SPECKLE INTERFERORRIETRY , 227 6.3.1 OUTLINE OF THE THEORY OF SPECKLE INTERFEROMETRY . . . 229 6.3.2 BENEFIT OF SHORT-EXPOSURE IMAGES 232 6.3.3 DATA PROCESSING 233 6.3.4 NOISE REDUCTION USING WIENER FILTER . . . 235 6.3.5 SIMULATIONS TO GENERATE SPECKLES 238 6.3.6 SPECKLE INTERFEROMETER 240 . 6.3.7 SPECKLE SPECTROSCOPY 243 6.3.8 SPECKLE POLARIMETRY 244 6.4 PUPIL-PLANE INTERFEROMETRY 246 6.4.1 ESTIMATION OF OBJECT MODULUS 246 6.4.2 SHEAR INTERFEROMETRY 248 6.5 APERTURE SYNTHESIS WITH SINGLE TELESCOPE 253 6.5.1 PHASE-CLOSURE METHOD 253 6.5.2 APERTURE MASKING METHOD . 255 6.5.3 NON-REDUNDANT MASKING INTERFEROMETER 257 7. ADAPTIVE OPTICS 259 7.1 BASIC PRINCIPLES 259 7.1.1 GREENWOOD FREQUENCY 260 7.1.2 THERMAL BLOOMING 262 7.2 WAVEFRONT ANALYSIS USING ZERNIKE POLYNOMIALS . . . . . . . . 264 7.2.1 DEFINITION OF ZERNIKE POLYNOMIAL AND ITS PROPERTIES . 264 7.2.2 VARIANCE OF WAVEFRONT DISTORTIONS 267 7.2.3 STATISTICS OF ATMOSPHERIC ZERNIKE COEFFICIENTS 269 7.3 ELEMENTS OF ADAPTIVE OPTICS SYSTEMS 271 7.3.1 STEERING/TIP-TILT MIRRORS 273 7.3.2 * DEFORMABLE MIRRORS 274 7.3.2.1 SEGMENTED MIRRORS 275 7.3.2.2 FERROELECTRIC ACTUATORS 276 CONTENTS XXV 7.3.2.3 DEFORMABLE MIRRORS WITH DISCRETE ACTUATORS . 278 7.3.2.4 BIMORPH DEFORMABLE MIRROR (BDM) 280 7.3.2.5 MEMBRANE DEFORMABLE MIRRORS 281 7.3.2.6 LIQUID CRYSTAL DM 284 7.3.3 DEFORMABLE MIRROR DRIVER ELECTRONICS 285 7.3.4 WAVEFRONT SENSORS 286 7.3.4.1 SHACK HARTMANN (SH) WAVEFRONT SENSOR . . . 287 7.3.4.2 CURVATURE SENSING 291 7.3.4.3 PYRAMID WFS 293 7.3.5 WAVEFRONT RECONSTRUCTION 295 7.3.5.1 ZONAL AND MODAL APPROACHES 296 7.3.5.2 SERVO CONTROL 298 7.3.6 ACCURACY OF THE CORRECTION 300 7.3.7 REFERENCE SOURCE 304 7.3.8 ADAPTIVE SECONDARY MIRROR 308 7.3.9 MULTI-CONJUGATE ADAPTIVE OPTICS 309 HIGH RESOLUTION DETECTORS 311 8.1 PHOTO-ELECTRIC EFFECT 311 8.1.1 DETECTING LIGHT 312 8.1.2 PHOTO-DETECTOR ELEMENTS 314 8.1.3 DETECTION OF PHOTO-ELECTRONS 318 8.1.4 PHOTO-MULTIPLIER TUBE 323 8.1.5 IMAGE INTENSIFIERS 327 8.2 CHARGE-COUPLED DEVICE (CCD) 331 8.2.1 READOUT PROCEDURE 334 8.2.2 CHARACTERISTIC FEATURES 336 8.2.2.1 QUANTUM EFFICIENCY 336 8.2.2.2 CHARGE TRANSFER EFFICIENCY 337 8.2.2.3 GAIN 337 8.2.2.4 DARK CURRENT 338 8.2.3 CALIBRATION OF CCD 339 8.2.4 INTENSIFIED CCD . . 341 8.3 PHOTON-COUNTING SENSORS 343 8.3.1 CCD-BASED PHOTON-COUNTING SYSTEM 345 8.3.2 DIGICON 346 8.3.3 PRECISION ANALOG PHOTON ADDRESS (PAPA) CAMERA . . 347 8.3.4 POSITION SENSING DETECTORS 348 8.3.5 SPECIAL ANODE CAMERAS 349 XXVI DIFFRACTION-LIMITED IMAGING WITH LARGE AND MODERATE TELESCOPES 8.4 SOLID STATE TECHNOLOGIES 353 8.4.1 ELECTRON MULTIPLYING CHARGE COUPLED DEVICE (EMCCD) 353 8.4.2 SUPERCONDUCTING TUNNEL JUNCTION 357 8.4.3 AVALANCHE PHOTO-DIODES 357 8.5 INFRARED SENSORS 358 9. IMAGE PROCESSING 361 9.1 POST-DETECTION IMAGE RECONSTRUCTION 361 9.1.1 SHIFT-AND-ADD ALGORITHM 362 9.1.2 SELECTIVE IMAGE RECONSTRUCTION 364 9.1.3 SPECKLE HOLOGRAPHY . . . . 365 9.1.4 CROSS-SPECTRUM ANALYSIS 366 9.1.5 DIFFERENTIAL SPECKLE INTERFEROMETRY 367 9.1.6 KNOX-THOMSON TECHNIQUE (KT) 368 9.1.7 TRIPLE-CORRELATION TECHNIQUE 371 9.1.7.1 DECIPHERING PHASE FROM BISPECTRUM 375 9.1.7.2 RELATIONSHIP BETWEEN KT AND TC 379 9.2 ITERATIVE DECONVOLUTION TECHNIQUES 382 9.2.1 FIENUP ALGORITHM . . . 383 9.2.2 BLIND ITERATIVE DECONVOLUTION (BID) TECHNIQUE . . . . 384 9.2.3 RICHARDSON-LUCY ALGORITHM 387 9.2.4 _ MAXIMUM ENTROPY METHOD (MEM) 388 9.2.5 PIXON 389 9.2.6 MISCELLANEOUS ITERATIVE ALGORITHMS 390 9.3 PHASE RETRIEVAL 390 9.3.1 PHASE-UNWRAPPING 392 9.3.2 PHASE-DIVERSITY 394 10. ASTRONOMY FUNDAMENTALS 397 10.1 BLACK BODY RADIATION 397 * 10.1.1 CAVITY RADIATION 398 10.1.2 PLANCK S LAW 400 10.1.3 APPLICATION OF BLACKBODY RADIATION CONCEPTS TO STELLAR EMISSION 403 10.1.4 RADIATION MECHANISM 405 10.1.4.1 ATOMIC TRANSITION 406 10.1.4.2 HYDROGEN SPECTRA . 408 10.2 ASTRONOMICAL MEASUREMENTS 409 10.2.1 FLUX DENSITY AND LUMINOSITY 409 CONTENTS XXVII 10.2.2 MAGNITUDE SCALE 412 10.2.2.1 APPARENT MAGNITUDE 413 10.2.2.2 ABSOLUTE MAGNITUDE 413 10.2.2.3 BOLOMETRIC CORRECTIONS 414 10.2.3 DISTANCE SCALE 415 10.2.4 EXTINCTION 418 . 10.2.4.1 INTERSTELLAR EXTINCTION 418 10.2.4.2 COLOR EXCESS 420 10.2.4.3 ATMOSPHERIC EXTINCTION 422 10.2.4.4 INSTRUMENTAL MAGNITUDES 423 10.2.4.5 COLOR AND MAGNITUDE TRANSFORMATION .... 424 10.2.4.6 UBV TRANSFORMATION EQUATIONS 425 10.2.5 STELLAR TEMPERATURE 427 10.2.5.1 EFFECTIVE TEMPERATURE 427 10.2.5.2 BRIGHTNESS TEMPERATURE 428 10.2.5.3 COLOR TEMPERATURE 428 10.2.5.4 KINETIC TEMPERATURE 429 10.2.5.5 EXCITATION TEMPERATURE 430 10.2.5.6 IONIZATION TEMPERATURE 431 10.2.6 STELLAR SPECTRA 432 10.2.6.1 HERTZSPRUNG-RUSSELL (HR) DIAGRAM 435 10.2.6.2 SPECTRAL CLASSIFICATION 438 10.2.6.3 UTILITY OF STELLAR SPECTRUM ..-...* 442 10.3 BINARY STARS 445 10.3.1 MASSES OF STARS 445 10.3.2 TYPES OF BINARY SYSTEMS 446 10.3.2.1 VISUAL BINARIES 447 10.3.2.2 SPECTROSCOPIC BINARIES 447 10.3.2.3 ECLIPSING BINARIES 450 10.3.2.4 ASTROMETRIC BINARIES : . 452 10.3.3 BINARY STAR ORBITS 453 10.3.3.1 APPARENT ORBIT 454 10.3.3.2 ORBIT DETERMINATION 456 10.4 CONVENTIONAL INSTRUMENTS AT TELESCOPES 459 10.4.1 IMAGING WITH CCD 460 10.4.2 PHOTOMETER 461 10.4.3 SPECTROMETER 464 10.5 OCCULTATION TECHNIQUE 468 10.5.1 METHODOLOGY OF OCCULTATION OBSERVATION 469 XXVIII DIFFRACTION-LIMITED IMAGING WITH LARGE AND MODERATE TELESCOPES 10.5.2 SCIENCE WITLTOCCULTATION TECHNIQUE 472 11. ASTRONOMICAL APPLICATIONS 475 11.1 HIGH RESOLUTION IMAGING OF EXTENDED OBJECTS 475 11.1.1 THE SUN . 476 11.1.1.1 SOLAR STRUCTURE . ... 477 11.1.1.2 TRANSIENT PHENOMENA » . . . 484 11.1.1.3 SOLAR INTERFEROMETRIC OBSERVATIONS . 489 11.1.1.4 SOLAR SPECKLE OBSERVATION DURING ECLIPSE . . . 491 11.1.2 JUPITER 493 11.1.3 ASTEROIDS 495 11.2 STELLAR OBJECTS 497 11.2.1 MEASUREMENT OF STELLAR DIAMETER 497 11.2.2 VARIABLE STARS 500 11.2.2.1 PULSATING VARIABLES 500 11.2.2.2 ERUPTIVE VARIABLES 503 11.2.2.3 CATACLYSMIC VARIABLES 504 11.2.3 YOUNG STELLAR OBJECTS 506 11.2.4 CIRCUMSTELLAR SHELL 514 11.2.4.1 PLANETARY NEBULAE 518 11.2.4.2 SUPERNOVAE . 523 11.2.5 CLOSE BINARY SYSTEMS 526 11.2.6 MULTIPLE STARS 529 11.2. 7 EXTRAGALACTIC OBJECTS 531 11.2.7.1 ACTIVE GALACTIC NUCLEI (AGN) 534 11.2.7.2 QUASARS 541 11.2.8 IMPACT OF ADAPTIVE OPTICS IN ASTROPHYSICS 542 11.3 DARK SPECKLE METHOD 547 APPENDIX A TYPICAL TABLES 553 APPENDIX B BASIC MATHEMATICS FOR FOURIER OPTICS 557 B.I FOURIER TRANSFORM ..... % 557 B.I.I BASIC PROPERTIES AND THEOREM 558 B.I.2 DISCRETE FOURIER TRANSFORM 561 B.1.3 CONVOLUTION *. . 561 B.I.4 AUTOCORRELATION 563 B.I.5 PARSEVAL S THEOREM 564 B.I.6 SOME IMPORTANT COROLLARIES 565 CONTENTS XXIX B.1.7 HILBERT TRANSFORM 566 B.2 LAPLACE TRANSFORM 567 B.3 PROBABILITY, STATISTICS, AND RANDOM PROCESSES 569 B.3,1 PROBABILITY DISTRIBUTION 569 B.3.2 PARAMETER ESTIMATION 573 B.3.3 CENTRAL-LIMIT THEOREM 575 B.3.4 RANDOM FIELDS 575 APPENDIX C BISPECTRUM AND PHASE VALUES USING TRIPLE- CORRELATION ALGORITHM 577 BIBLIOGRAPHY 579 INDEX 595
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spelling	Saha, Swapan K. Verfasser aut Diffraction-limited imaging with large and moderate telescopes Swapan K. Saha New Jersey [u.a.] World Scientific 2007 XXIX, 604 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 579 - 594 Bilderzeugung (DE-588)4197032-9 gnd rswk-swf Beugung (DE-588)4145094-2 gnd rswk-swf Fernrohr (DE-588)4139973-0 gnd rswk-swf Fernrohr (DE-588)4139973-0 s Bilderzeugung (DE-588)4197032-9 s Beugung (DE-588)4145094-2 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020130266&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Saha, Swapan K. Diffraction-limited imaging with large and moderate telescopes Bilderzeugung (DE-588)4197032-9 gnd Beugung (DE-588)4145094-2 gnd Fernrohr (DE-588)4139973-0 gnd
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title	Diffraction-limited imaging with large and moderate telescopes
title_auth	Diffraction-limited imaging with large and moderate telescopes
title_exact_search	Diffraction-limited imaging with large and moderate telescopes
title_full	Diffraction-limited imaging with large and moderate telescopes Swapan K. Saha
title_fullStr	Diffraction-limited imaging with large and moderate telescopes Swapan K. Saha
title_full_unstemmed	Diffraction-limited imaging with large and moderate telescopes Swapan K. Saha
title_short	Diffraction-limited imaging with large and moderate telescopes
title_sort	diffraction limited imaging with large and moderate telescopes
topic	Bilderzeugung (DE-588)4197032-9 gnd Beugung (DE-588)4145094-2 gnd Fernrohr (DE-588)4139973-0 gnd
topic_facet	Bilderzeugung Beugung Fernrohr
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020130266&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT sahaswapank diffractionlimitedimagingwithlargeandmoderatetelescopes

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