Verfügbarkeit: An introduction to optical stellar interferometry

An introduction to optical stellar interferometry:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Labeyrie, Antoine (VerfasserIn), Lipson, Stephen G. 1941- (VerfasserIn), Nisenson, Peter (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge [u.a.] Cambridge University Press 2006
Ausgabe:	1. publ.
Schlagworte:	Astronomie Interferometrie Interféromètres optiques Optische astronomie Optical interferometers Astronomy Optische Strahlung
Online-Zugang:	Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XXXIII, 325 S. Ill., graph. Darst. 26 cm
ISBN:	0521828724 9780521828727 9781107656468

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Datensatz im Suchindex

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adam_text	AN INTRODUCTION TO OPTICAL STELLAR INTERFEROMETRY A. LABEYRIE, S. G. LIPSON, AND P. NISENSON CAMBRIDGE UNIVERSITY PRESS CONTENTS LIST OF ILLUSTRATIONS PAGE XII PREFACE XXVIII INTRODUCTION 1 1.1 HISTORICAL INTRODUCTION 1 1.2 ABOUT TRYS BOOK 7 REFERENCES 7 BASIC CONCEPTS: A QUALITATIVE INTRODUCTION 9 2.1 A QUALITATIVE INTRODUCTION TO THE BASIC CONCEPTS AND IDEAS 9 2.1.1 YOUNG S EXPERIMENT (1801-3) 9 2.1.2 USING YOUNG S SLITS TO MEASURE THE SIZE OF A LIGHT SOURCE 11 2.2 SOME BASIC WAVE CONCEPTS 13 2.2.1 PLANE WAVES 15 2.2.2 HUYGENS PRINCIPLE 15 2.2.3 SUPERPOSITION 17 2.3 ELECTROMAGNETIC WAVES AND PHOTONS 19 REFERENCES 22 INTERFERENCE, DIFFRACTION AND COHERENCE 23 3.1 INTERFERENCE AND DIFFRACTION 23 3.1.1 INTERFERENCE AND INTERFEROMETERS 24 3.1.2 DIFFRACTION USING THE SCALAR WAVE APPROXIMATION 28 3.1.3 FRAUNHOFER DIFFRACTION PATTERNS OF SOME SIMPLE APERTURES 31 3.1.4 THE POINT SPREAD FUNCTION 37 3.1.5 THE OPTICAL TRANSFER FUNCTION 39 3.2 COHERENT LIGHT 40 3.2.1 THE EFFECT OF UNCERTAINTIES IN THE FREQUENCY AND WAVE VECTOR 40 3.2.2 COHERENT LIGHT AND ITS IMPORTANCE TO INTERFEROMETRY 41 3.2.3 PARTIAL COHERENCE 41 VI CONTENTS 3.2.4 SPATIAL COHERENCE V 42 3.2.5 TEMPORAL COHERENCE 43 3.3 A QUANTITATIVE DISCUSSION OF COHERENCE 44 3.3.1 COHERENCE FUNCTION 45 3.3.2 THE RELATIONSHIP BETWEEN THE COHERENCE FUNCTION AND FRINGE VISIBILITY 45 3.3.3 VAN CITTERT-ZERNIKE THEOREM 46 3.4 FLUCTUATIONS IN LIGHT WAVES 52 3.4.1 A STATISTICAL MODEL FOR QUASIMONOCHROMATIC LIGHT 52 3.4.2 THE SECOND-ORDER COHERENCE FUNCTION 55 3.4.3 PHOTON NOISE 56 3.4.4 PHOTODETECTORS 58 REFERENCES 62 4 APERTURE SYNTHESIS 64 4.1 APERTURE SYNTHESIS 64 4.1.1 THE OPTICS OF APERTURE SYNTHESIS 64 4.1.2 SAMPLING THE (U, V) PLANE 66 4.1.3 THE OPTIMAL GEOMETRY OF MULTIPLE TELESCOPE ARRANGEMENTS 69 4.2 FROM DATA TO IMAGE: THE PHASE PROBLEM 71 4.2.1 PHASE CLOSURE 73 4.3 IMAGE RESTORATION AND THE CROWDING LIMITATION 75 4.3.1 ALGORITHMIC IMAGE RESTORATION METHODS 76 4.3.2 THE CROWDING LIMITATION 77 4.4 SIGNAL DETECTION FOR APERTURE SYNTHESIS 78 4.4.1 WAVE MIXING AND HETERODYNE RECORDING 78 4.5 A QUANTUM INTERPRETATION OF APERTURE SYNTHESIS 81 4.6 A LECTURE DEMONSTRATION OF APERTURE SYNTHESIS 83 REFERENCES 87 5 OPTICAL EFFECTS OF THE ATMOSPHERE 88 5.1 INTRODUCTION 88 5.2 A QUALITATIVE DESCRIPTION OF OPTICAL EFFECTS OF THE ATMOSPHERE 90 5.3 QUANTITATIVE MEASURES OF THE ATMOSPHERIC ABERRATIONS 93 5.3.1 KOLMOGOROV S (1941) DESCRIPTION OF TURBULENCE 93 5.3.2 PARAMETERS DESCRIBING THE OPTICAL EFFECTS OF TURBULENCE: CORRELATION AND STRUCTURE FUNCTIONS, B(R) AND D(R). 95 5.4 PHASE FLUCTUATIONS IN A WAVE PROPAGATING THROUGH THE ATMOSPHERE 96 5.4.1 FRIED S PARAMETER RO DESCRIBES THE SIZE OF THE ATMOSPHERIC CORRELATION REGION 99 CONTENTS VII 5.4.2 CORRELATION BETWEEN PHASE FLUCTUATIONS IN WAVES WITH DIFFERENT ANGLES OF INCIDENCE: THE ISOPLANATIC PATCH 100 5.5 TEMPORAL FLUCTUATIONS - 102 5.5.1 THE WIND-DRIVEN FROZEN TURBULENCE HYPOTHESIS 102 5.5.2 FREQUENCY SPECTRUM OF FLUCTUATIONS 102 5.5.3 INTENSITY FLUCTUATIONS: TWINKLING 103 5.6 DEPENDENCE ON HEIGHT 108 5.7 DEPENDENCE OF ATMOSPHERIC EFFECTS ON THE WAVELENGTH 108 5.8 ADAPTIVE OPTICS 109 5.8.1 MEASURING THE WAVEFRONT DI STORTION 111 5.8.2 DEFORMABLE MIRRORS 113 5.8.3 TIP-TILT CORRECTION 114 5.8.4 GUIDE STARS 114 5.9 SHORT EXPOSURE IMAGES: SPECKLE PATTERNS 115 5.9.1 A MODEL FOR A SPECKLE IMAGE 116 REFERENCES 119 SINGLE-APERTURE TECHNIQUES 120 6.1 INTRODUCTION 120 6.2 MASKING THE APERTURE OF A LARGE TELESCOPE 123 6.3 USING THE WHOLE APERTURE: SPECKLE INTERFEROMETRY 126 6.3.1 THEORY OF SPECKLE INTERFEROMETRY 128 6.3.2 EXPERIMENTAL SPECKLE INTERFEROMETRY 130 6.3.3 SOME EARLY RESULTS OF SPECKLE INTERFEROMETRY 133 6.4 SPECKLE IMAGING 134 6.4.1 THE KNOX-THOMPSON ALGORITHM 135 6.4.2 SPECKLE MASKING, OR TRIPLE CORRELATION 136 6.4.3 SPECTRAL SPECKLE MASKING 139 REFERENCES 139 INTENSITY INTERFEROMETRY 141 7.1 INTRODUCTION 141 7.2 INTENSITY FLUCTUATIONS AND THE SECOND-ORDER COHERENCE FUNCTION 142 7.2.1 THE CLASSICAL WAVE INTERPRETATION 142 7.2.2 THE QUANTUM INTERPRETATION 146 7.3 ESTIMATING THE SENSITIVITY OF FLUCTUATION CORRELATIONS 147 7.4 THE NARRABRI INTENSITY INTERFEROMETER 149 7.4.1 THE ELECTRONIC CORRELATOR 150 7.5 DATA ANALYSIS 152 7.5.1 DOUBLE STARS 152 7.5.2 STELLAR DIAMETERS 154 VIII CONTENTS 7.5.3 LIMB DARKENING 154 7.6 ASTRONOMICAL RESULTS 154 7.7 RETRIEVING THE PHASE ,155 7.8 CONCLUSION 156 REFERENCES 157 8 AMPLITUDE INTERFEROMETRY: TECHNIQUES AND INSTRUMENTS 158 8.1 INTRODUCTION 158 8.1.1 THE MICHELSON STELLAR INTERFEROMETER 159 8.1.2 THE NARRABRI INTENSITY INTERFEROMETER 160 8.1.3 APERTURE MASKING 161 8.2 WHAT DO WE DEMAND OF AN INTERFEROMETER? 161 8.3 THE COMPONENTS OF MODERN AMPLITUDE INTERFEROMETERS 162 8.3.1 SUBAPERTURES AND TELESCOPES 163 8.3.2 BEAM LINES AND THEIR DISPERSION CORRECTION 165 8.3.3 CORRECTION OF ANGULAR DISPERSION 167 8.3.4 PATH-LENGTH EQUALIZERS OR DELAY LINES 168 8.3.5 BEAM-REDUCING OPTICS 170 8.3.6 BEAM COMBINERS 170 8.3.7 SEMIREFLECTIVE BEAM-COMBINERS 172 8.3.8 OPTICAL FIBER AND INTEGRATED OPTICAL BEAM-COMBINERS 174 8.3.9 STAR TRACKING AND TIP-TILT CORRECTION 175 8.3.10 FRINGE DISPERSION AND TRACKING 179 8.3.11 ESTIMATING THE FRINGE PARAMETERS 180 8.3.12 TECHNIQUES FOR MEASURING IN THE PHOTON-STARVED REGION 183 8.4 MODERN INTERFEROMETERS WITH TWO SUBAPERTURES 184 8.4.1 HETERODYNE INTERFEROMETERS 185 8.4.2 INTERFEROMETRE A 2 TELESCOPES (I2T) 186 8.4.3 GRAND INTERFEROMETRE A DEUX TELESCOPES (GI2T) 186 8.4.4 THE MARK III INTERFEROMETER 189 8.4.5 SYDNEY UNIVERSITY STELLAR INTERFEROMETER (SUSI) 189 8.4.6 THE LARGE BINOCULAR TELESCOPE (LBT) 191 8.4.7 THE MIKATA OPTICAL AND INFRARED ARRAY (MIRA-I.2) 193 8.4.8 PALOMAR TESTBED INTERFEROMETER (PTI) 193 8.4.9 KECK INTERFEROMETER 196 8.5 INTERFEROMETERS WITH MORE THAN TWO SUBAPERTURES 197 8.5.1 THE CAMBRIDGE OPTICAL APERTURE SYNTHESIS TELESCOPE (COAST) 197 8.5.2 CENTER FOR HIGH ANGULAR RESOLUTION ASTRONOMY (CHARA) 200 8.5.3 INFRARED OPTICAL TELESCOPE ARRAY (IOTA) 202 CONTENTS IX 8.5.4 NAVY PROTOTYPE OPTICAL INTERFEROMETER (NPOI) 203 8.5.5 THE BERKELEY INFRARED SPATIAL INTERFEROMETER (ISI) 205 8.5.6 VERY LARGE TELESCOPE INTERFEROMETER (VLTI) 208 REFERENCES 21 0 9 THE HYPERTELESCOPE 212 9.1 IMAGING WITH VERY HIGH RESOLUTION USING MULTIMIRROR TELESCOPES 212 9.2 THE PHYSICAL OPTICS OF PUPIL DENSIFICATION 214 9.2.1 A RANDOM ARRAY OF APERTURES 214 9.2.2 A PERIODIC ARRAY OF APERTURES 219 9.3 THE FIELD OF VIEW OF A HYPERTELESCOPE AND THE CROWDING LIMITATION 221 9.4 HYPERTELESCOPE ARCHITECTURES 224 9.4.1 MICHELSON S STELLAR INTERFEROMETER AS A HYPERTELESCOPE, AND MULTI-APERTURE EXTENSIONS 224 9.4.2 HYPERTELESCOPE VERSIONS OF MULTITELESCOPE INTERFEROMETERS 224 9.4.3 CARLINA HYPERTELESCOPES 224 9.4.4 A FIBER-OPTICAL VERSION OF THE HYPERTELESCOPE 226 9.5 EXPERIMENTS ON A HYPERTELESCOPE SYSTEM 228 REFERENCES 231 10 NULLING AND CORONAGRAPHY 232 10.1 SEARCHING FOR EXTRASOLAR PLANETS AND LIFE 232 10.2 PLANET DETECTION METHODS 233 10.2.1 THE RELATIVE LUMINOSITIES OF A STAR AND PLANET 234 10.2.2 REQUIREMENTS FOR IMAGING PLANET SURFACE FEATURES 235 10.3 APODIZATION 236 10.3.1 APODIZATION USING BINARY MASKS 238 10.3.2 APODIZATION USING PHASE MASKS 239 10.4 NULLING METHODS IN INTERFEROMETERS 240 10.4.1 BRACEWELL S SINGLE-PIXEL NULLING IN NONIMAGING INTERFEROMETERS 241 10.4.2 BRACEWELL NULLING IN IMAGING INTERFEROMETERS 242 10.4.3 ACHROMATIC NULLING IN BRACEWELL INTERFEROMETERS 243 10.4.4 STARLIGHT LEAKAGE IN NULLING INTERFEROMETERS 245 10.5 IMAGING CORONAGRAPHY 247 10.5.1 THE LYOT CORONAGRAPH IN ITS ORIGINAL AND STELLAR VERSIONS 248 10.5.2 THE RODDIER-RODDIER PHASE-DOT CORONAGRAPH 251 10.5.3 FOUR-QUADRANT PHASE-MASK AND PHASE-SPIRAL CORONAGRAPHS 251 10.5.4 THE ACHROMATIC INTERFERENCE CORONAGRAPH 252 10.5.5 ELEMENTARY MODELING OF MASK CORONAGRAPHS 252 X CONTENTS 10.5.6 MIRROR BUMPINESS TOLERANCE CALCULATED WITH MARECHAL S EQUATION 253 10.6 HIGH CONTRAST CORONAGRAPHY AND APODIZATION 256 10.6.1 ADAPTIVE COHERENT CORRECTION OF MIRROR BUMPINESS 256 10.6.2 ADAPTIVE HOLOGRAM WITHIN THE CORONAGRAPH 257 10.6.3 INCOHERENT CLEANING OF RECORDED IMAGES 259 10.6.4 COMPARISON OF COHERENT AND INCOHERENT CLEANING 259 REFERENCES 260 11 A SAMPLING OF INTERFEROMETRIC SCIENCE 262 11.1 INTERFEROMETRIC SCIENCE 262 11.2 STELLAR MEASUREMENTS AND IMAGING 262 11.2.1 STELLAR DIAMETERS AND LIMB DARKENING 262 11.2.2 STAR-SPOTS, HOT SPOTS 265 11.2.3 PULSATING STARS 266 11.2.4 MIRAS 267 11.2.5 YOUNG STELLAR OBJECT DISKS AND JETS 268 11.2.6 DUST SHELLS, WOLF-RAYETS 268 11.2.7 BINARY STARS 270 11.3 GALACTIC AND EXTRAGALACTIC SOURCES 271 11.3.1 SN1987A 271 11.3.2 R136A 272 11.3.3 THE GALACTIC CENTER 273 11.3.4 ASTROMETRY 273 11.4 SOLAR SYSTEM 274 11.4.1 THE GALILEAN SATELLITES 274 11.4.2 ASTEROID IMAGING 274 11.4.3 PLUTO-CHARON 275 11.5 BROWN DWARFS 275 11.6 SOLAR FEATURE IMAGING AND DYNAMICS MEASUREMENTS 275 REFERENCES 276 12 FUTURE GROUND AND SPACE PROJECTS 278 12.1 FUTURE GROUND-BASED PROJECTS 278 12.1.1 NEW GROUND-BASED LONG-BASELINE INTERFEROMETERS 279 12.1.2 THE OPTICAL VERY LARGE ARRAY (OVLA) 280 12.1.3 TOWARD LARGE CARLINA HYPERTELESCOPES 281 12.1.4 COMPARISON OF OVLA AND CARLINA CONCEPTS 281 12.1.5 COMPARING COMPACT AND EXPLODED ELTS 282 12.1.6 COUPLING TELESCOPES THROUGH FIBERS: THE OHANA PROJECT AT MAUNA KEA 283 CONTENTS XI 12.2 FUTURE SPACE PROJECTS 284 12.2.1 FLOTILLAS OF MIRRORS 285 12.2.2 DARWIN 285 12.2.3 TERRESTRIAL PLANET FINDER (TPF) 287 12.2.4 SPACE INTERFEROMETRY MISSION (SIM) 288 12.2.5 THE EXO-EARTH IMAGER (EEI) 289 12.3 SIMULATED EXO-EARTH-IMAGER IMAGES 290 12.3.1 SOME SPECULATIONS ON IDENTIFYING LIFE FROM COLORED PATCHES 291 12.4 EXTREME BASELINES FOR A NEUTRON STAR IMAGER 292 REFERENCES 294 APPENDIX A 295 A.I ELECTROMAGNETIC WAVES: A SUMMARY 295 A. 1.1 PLANE AND SPHERICAL ELECTROMAGNETIC WAVES 296 A. 1.2 ENERGY AND MOMENTUM IN WAVES 297 A.2 GEOMETRICAL PHASE IN WAVE PROPAGATION 298 A.3 FOURIER THEORY 300 A.3.1 THE FOURIER TRANSFORM 301 A.3.2 SOME SIMPLE EXAMPLES 302 A.3.3 CONVOLUTION 305 A.3.4 SAMPLING AND ALIASING 307 A.4 FRAUNHOFER DIFFRACTION 311 A.4.1 RANDOM OBJECTS AND THEIR DIFFRACTION PATTERNS: SPECKLE IMAGES 313 APPENDIX B 316 REFERENCES , 317 INDEX 319
adam_txt	AN INTRODUCTION TO OPTICAL STELLAR INTERFEROMETRY A. LABEYRIE, S. G. LIPSON, AND P. NISENSON CAMBRIDGE UNIVERSITY PRESS CONTENTS LIST OF ILLUSTRATIONS PAGE XII PREFACE XXVIII INTRODUCTION 1 1.1 HISTORICAL INTRODUCTION 1 1.2 ABOUT TRYS BOOK 7 REFERENCES 7 BASIC CONCEPTS: A QUALITATIVE INTRODUCTION 9 2.1 A QUALITATIVE INTRODUCTION TO THE BASIC CONCEPTS AND IDEAS 9 2.1.1 YOUNG'S EXPERIMENT (1801-3) 9 2.1.2 USING YOUNG'S SLITS TO MEASURE THE SIZE OF A LIGHT SOURCE 11 2.2 SOME BASIC WAVE CONCEPTS 13 2.2.1 PLANE WAVES 15 2.2.2 HUYGENS' PRINCIPLE 15 2.2.3 SUPERPOSITION \ 17 2.3 ELECTROMAGNETIC WAVES AND PHOTONS 19 REFERENCES 22 INTERFERENCE, DIFFRACTION AND COHERENCE 23 3.1 INTERFERENCE AND DIFFRACTION 23 3.1.1 INTERFERENCE AND INTERFEROMETERS 24 3.1.2 DIFFRACTION USING THE SCALAR WAVE APPROXIMATION 28 3.1.3 FRAUNHOFER DIFFRACTION PATTERNS OF SOME SIMPLE APERTURES 31 3.1.4 THE POINT SPREAD FUNCTION 37 3.1.5 THE OPTICAL TRANSFER FUNCTION 39 3.2 COHERENT LIGHT 40 3.2.1 THE EFFECT OF UNCERTAINTIES IN THE FREQUENCY AND WAVE VECTOR 40 3.2.2 COHERENT LIGHT AND ITS IMPORTANCE TO INTERFEROMETRY 41 3.2.3 PARTIAL COHERENCE 41 VI CONTENTS 3.2.4 SPATIAL COHERENCE V 42 3.2.5 TEMPORAL COHERENCE 43 3.3 A QUANTITATIVE DISCUSSION OF COHERENCE 44 3.3.1 COHERENCE FUNCTION 45 3.3.2 THE RELATIONSHIP BETWEEN THE COHERENCE FUNCTION AND FRINGE VISIBILITY 45 3.3.3 VAN CITTERT-ZERNIKE THEOREM 46 3.4 FLUCTUATIONS IN LIGHT WAVES 52 3.4.1 A STATISTICAL MODEL FOR QUASIMONOCHROMATIC LIGHT 52 3.4.2 THE SECOND-ORDER COHERENCE FUNCTION 55 3.4.3 PHOTON NOISE 56 3.4.4 PHOTODETECTORS 58 REFERENCES 62 4 APERTURE SYNTHESIS 64 4.1 APERTURE SYNTHESIS 64 4.1.1 THE OPTICS OF APERTURE SYNTHESIS 64 4.1.2 SAMPLING THE (U, V) PLANE 66 4.1.3 THE OPTIMAL GEOMETRY OF MULTIPLE TELESCOPE ARRANGEMENTS 69 4.2 FROM DATA TO IMAGE: THE PHASE PROBLEM 71 4.2.1 PHASE CLOSURE 73 4.3 IMAGE RESTORATION AND THE CROWDING LIMITATION 75 4.3.1 ALGORITHMIC IMAGE RESTORATION METHODS 76 4.3.2 THE CROWDING LIMITATION 77 4.4 SIGNAL DETECTION FOR APERTURE SYNTHESIS 78 4.4.1 WAVE MIXING AND HETERODYNE RECORDING 78 4.5 A QUANTUM INTERPRETATION OF APERTURE SYNTHESIS 81 4.6 A LECTURE DEMONSTRATION OF APERTURE SYNTHESIS 83 REFERENCES 87 5 OPTICAL EFFECTS OF THE ATMOSPHERE 88 5.1 INTRODUCTION 88 5.2 A QUALITATIVE DESCRIPTION OF OPTICAL EFFECTS OF THE ATMOSPHERE 90 5.3 QUANTITATIVE MEASURES OF THE ATMOSPHERIC ABERRATIONS 93 5.3.1 KOLMOGOROV'S (1941) DESCRIPTION OF TURBULENCE 93 5.3.2 PARAMETERS DESCRIBING THE OPTICAL EFFECTS OF TURBULENCE: CORRELATION AND STRUCTURE FUNCTIONS, B(R) AND D(R). 95 5.4 PHASE FLUCTUATIONS IN A WAVE PROPAGATING THROUGH THE ATMOSPHERE 96 5.4.1 FRIED'S PARAMETER RO DESCRIBES THE SIZE OF THE ATMOSPHERIC CORRELATION REGION 99 CONTENTS VII 5.4.2 CORRELATION BETWEEN PHASE FLUCTUATIONS IN WAVES WITH DIFFERENT ANGLES OF INCIDENCE: THE ISOPLANATIC PATCH 100 5.5 TEMPORAL FLUCTUATIONS - 102 5.5.1 THE WIND-DRIVEN"FROZEN TURBULENCE" HYPOTHESIS 102 5.5.2 FREQUENCY SPECTRUM OF FLUCTUATIONS 102 5.5.3 INTENSITY FLUCTUATIONS: TWINKLING 103 5.6 DEPENDENCE ON HEIGHT 108 5.7 DEPENDENCE OF ATMOSPHERIC EFFECTS ON THE WAVELENGTH 108 5.8 ADAPTIVE OPTICS 109 5.8.1 MEASURING THE WAVEFRONT DI STORTION 111 5.8.2 DEFORMABLE MIRRORS 113 5.8.3 TIP-TILT CORRECTION 114 5.8.4 GUIDE STARS 114 5.9 SHORT EXPOSURE IMAGES: SPECKLE PATTERNS 115 5.9.1 A MODEL FOR A SPECKLE IMAGE 116 REFERENCES 119 SINGLE-APERTURE TECHNIQUES 120 6.1 INTRODUCTION 120 6.2 MASKING THE APERTURE OF A LARGE TELESCOPE 123 6.3 USING THE WHOLE APERTURE: SPECKLE INTERFEROMETRY 126 6.3.1 THEORY OF SPECKLE INTERFEROMETRY 128 6.3.2 EXPERIMENTAL SPECKLE INTERFEROMETRY 130 6.3.3 SOME EARLY RESULTS OF SPECKLE INTERFEROMETRY 133 6.4 SPECKLE IMAGING 134 6.4.1 THE KNOX-THOMPSON ALGORITHM 135 6.4.2 SPECKLE MASKING, OR TRIPLE CORRELATION 136 6.4.3 SPECTRAL SPECKLE MASKING 139 REFERENCES 139 INTENSITY INTERFEROMETRY 141 7.1 INTRODUCTION 141 7.2 INTENSITY FLUCTUATIONS AND THE SECOND-ORDER COHERENCE FUNCTION 142 7.2.1 THE CLASSICAL WAVE INTERPRETATION 142 7.2.2 THE QUANTUM INTERPRETATION 146 7.3 ESTIMATING THE SENSITIVITY OF FLUCTUATION CORRELATIONS 147 7.4 THE NARRABRI INTENSITY INTERFEROMETER 149 7.4.1 THE ELECTRONIC CORRELATOR 150 7.5 DATA ANALYSIS 152 7.5.1 DOUBLE STARS 152 7.5.2 STELLAR DIAMETERS 154 VIII CONTENTS 7.5.3 LIMB DARKENING 154 7.6 ASTRONOMICAL RESULTS 154 7.7 RETRIEVING THE PHASE ,155 7.8 CONCLUSION 156 REFERENCES 157 8 AMPLITUDE INTERFEROMETRY: TECHNIQUES AND INSTRUMENTS 158 8.1 INTRODUCTION 158 8.1.1 THE MICHELSON STELLAR INTERFEROMETER 159 8.1.2 THE NARRABRI INTENSITY INTERFEROMETER 160 8.1.3 APERTURE MASKING 161 8.2 WHAT DO WE DEMAND OF AN INTERFEROMETER? 161 8.3 THE COMPONENTS OF MODERN AMPLITUDE INTERFEROMETERS 162 8.3.1 SUBAPERTURES AND TELESCOPES 163 8.3.2 BEAM LINES AND THEIR DISPERSION CORRECTION 165 8.3.3 CORRECTION OF ANGULAR DISPERSION 167 8.3.4 PATH-LENGTH EQUALIZERS OR DELAY LINES 168 8.3.5 BEAM-REDUCING OPTICS 170 8.3.6 BEAM COMBINERS 170 8.3.7 SEMIREFLECTIVE BEAM-COMBINERS 172 8.3.8 OPTICAL FIBER AND INTEGRATED OPTICAL BEAM-COMBINERS 174 8.3.9 STAR TRACKING AND TIP-TILT CORRECTION 175 8.3.10 FRINGE DISPERSION AND TRACKING 179 8.3.11 ESTIMATING THE FRINGE PARAMETERS 180 8.3.12 TECHNIQUES FOR MEASURING IN THE PHOTON-STARVED REGION 183 8.4 MODERN INTERFEROMETERS WITH TWO SUBAPERTURES 184 8.4.1 HETERODYNE INTERFEROMETERS 185 8.4.2 INTERFEROMETRE A 2 TELESCOPES (I2T) 186 8.4.3 GRAND INTERFEROMETRE A DEUX TELESCOPES (GI2T) 186 8.4.4 THE MARK III INTERFEROMETER 189 8.4.5 SYDNEY UNIVERSITY STELLAR INTERFEROMETER (SUSI) 189 8.4.6 THE LARGE BINOCULAR TELESCOPE (LBT) 191 8.4.7 THE MIKATA OPTICAL AND INFRARED ARRAY (MIRA-I.2) 193 8.4.8 PALOMAR TESTBED INTERFEROMETER (PTI) 193 8.4.9 KECK INTERFEROMETER 196 8.5 INTERFEROMETERS WITH MORE THAN TWO SUBAPERTURES 197 8.5.1 THE CAMBRIDGE OPTICAL APERTURE SYNTHESIS TELESCOPE (COAST) 197 8.5.2 CENTER FOR HIGH ANGULAR RESOLUTION ASTRONOMY (CHARA) 200 8.5.3 INFRARED OPTICAL TELESCOPE ARRAY (IOTA) 202 CONTENTS IX 8.5.4 NAVY PROTOTYPE OPTICAL INTERFEROMETER (NPOI) 203 8.5.5 THE BERKELEY INFRARED SPATIAL INTERFEROMETER (ISI) 205 8.5.6 VERY LARGE TELESCOPE INTERFEROMETER (VLTI) 208 REFERENCES 21 0 9 THE HYPERTELESCOPE 212 9.1 IMAGING WITH VERY HIGH RESOLUTION USING MULTIMIRROR TELESCOPES 212 9.2 THE PHYSICAL OPTICS OF PUPIL DENSIFICATION 214 9.2.1 A RANDOM ARRAY OF APERTURES 214 9.2.2 A PERIODIC ARRAY OF APERTURES 219 9.3 THE FIELD OF VIEW OF A HYPERTELESCOPE AND THE CROWDING LIMITATION 221 9.4 HYPERTELESCOPE ARCHITECTURES 224 9.4.1 MICHELSON'S STELLAR INTERFEROMETER AS A HYPERTELESCOPE, AND MULTI-APERTURE EXTENSIONS 224 9.4.2 HYPERTELESCOPE VERSIONS OF MULTITELESCOPE INTERFEROMETERS 224 9.4.3 CARLINA HYPERTELESCOPES 224 9.4.4 A FIBER-OPTICAL VERSION OF THE HYPERTELESCOPE 226 9.5 EXPERIMENTS ON A HYPERTELESCOPE SYSTEM 228 REFERENCES 231 10 NULLING AND CORONAGRAPHY 232 10.1 SEARCHING FOR EXTRASOLAR PLANETS AND LIFE 232 10.2 PLANET DETECTION METHODS 233 10.2.1 THE RELATIVE LUMINOSITIES OF A STAR AND PLANET 234 10.2.2 REQUIREMENTS FOR IMAGING PLANET SURFACE FEATURES 235 10.3 APODIZATION 236 10.3.1 APODIZATION USING BINARY MASKS \ 238 10.3.2 APODIZATION USING PHASE MASKS 239 10.4 NULLING METHODS IN INTERFEROMETERS 240 10.4.1 BRACEWELL'S SINGLE-PIXEL NULLING IN NONIMAGING INTERFEROMETERS 241 10.4.2 BRACEWELL NULLING IN IMAGING INTERFEROMETERS 242 10.4.3 ACHROMATIC NULLING IN BRACEWELL INTERFEROMETERS 243 10.4.4 STARLIGHT LEAKAGE IN NULLING INTERFEROMETERS 245 10.5 IMAGING CORONAGRAPHY 247 10.5.1 THE LYOT CORONAGRAPH IN ITS ORIGINAL AND STELLAR VERSIONS 248 10.5.2 THE RODDIER-RODDIER PHASE-DOT CORONAGRAPH 251 10.5.3 FOUR-QUADRANT PHASE-MASK AND PHASE-SPIRAL CORONAGRAPHS 251 10.5.4 THE ACHROMATIC INTERFERENCE CORONAGRAPH 252 10.5.5 ELEMENTARY MODELING OF MASK CORONAGRAPHS 252 X CONTENTS 10.5.6 MIRROR BUMPINESS TOLERANCE CALCULATED WITH MARECHAL'S EQUATION 253 10.6 HIGH CONTRAST CORONAGRAPHY AND APODIZATION 256 10.6.1 ADAPTIVE COHERENT CORRECTION OF MIRROR BUMPINESS 256 10.6.2 ADAPTIVE HOLOGRAM WITHIN THE CORONAGRAPH 257 10.6.3 INCOHERENT CLEANING OF RECORDED IMAGES 259 10.6.4 COMPARISON OF COHERENT AND INCOHERENT CLEANING 259 REFERENCES 260 11 A SAMPLING OF INTERFEROMETRIC SCIENCE 262 11.1 INTERFEROMETRIC SCIENCE 262 11.2 STELLAR MEASUREMENTS AND IMAGING 262 11.2.1 STELLAR DIAMETERS AND LIMB DARKENING 262 11.2.2 STAR-SPOTS, HOT SPOTS 265 11.2.3 PULSATING STARS 266 11.2.4 MIRAS 267 11.2.5 YOUNG STELLAR OBJECT DISKS AND JETS 268 11.2.6 DUST SHELLS, WOLF-RAYETS 268 11.2.7 BINARY STARS 270 11.3 GALACTIC AND EXTRAGALACTIC SOURCES 271 11.3.1 SN1987A 271 11.3.2 R136A 272 11.3.3 THE GALACTIC CENTER 273 11.3.4 ASTROMETRY 273 11.4 SOLAR SYSTEM 274 11.4.1 THE GALILEAN SATELLITES 274 11.4.2 ASTEROID IMAGING 274 11.4.3 PLUTO-CHARON 275 11.5 BROWN DWARFS 275 11.6 SOLAR FEATURE IMAGING AND DYNAMICS MEASUREMENTS 275 REFERENCES 276 12 FUTURE GROUND AND SPACE PROJECTS 278 12.1 FUTURE GROUND-BASED PROJECTS 278 12.1.1 NEW GROUND-BASED LONG-BASELINE INTERFEROMETERS 279 12.1.2 THE OPTICAL VERY LARGE ARRAY (OVLA) 280 12.1.3 TOWARD LARGE CARLINA HYPERTELESCOPES 281 12.1.4 COMPARISON OF OVLA AND CARLINA CONCEPTS 281 12.1.5 COMPARING COMPACT AND EXPLODED ELTS 282 12.1.6 COUPLING TELESCOPES THROUGH FIBERS: THE OHANA PROJECT AT MAUNA KEA 283 CONTENTS XI 12.2 FUTURE SPACE PROJECTS 284 12.2.1 FLOTILLAS OF MIRRORS 285 12.2.2 DARWIN 285 12.2.3 TERRESTRIAL PLANET FINDER (TPF) 287 12.2.4 SPACE INTERFEROMETRY MISSION (SIM) 288 12.2.5 THE EXO-EARTH IMAGER (EEI) 289 12.3 SIMULATED EXO-EARTH-IMAGER IMAGES 290 12.3.1 SOME SPECULATIONS ON IDENTIFYING LIFE FROM COLORED PATCHES 291 12.4 EXTREME BASELINES FOR A NEUTRON STAR IMAGER 292 REFERENCES 294 APPENDIX A 295 A.I ELECTROMAGNETIC WAVES: A SUMMARY 295 A. 1.1 PLANE AND SPHERICAL ELECTROMAGNETIC WAVES 296 A. 1.2 ENERGY AND MOMENTUM IN WAVES 297 A.2 GEOMETRICAL PHASE IN WAVE PROPAGATION 298 A.3 FOURIER THEORY 300 A.3.1 THE FOURIER TRANSFORM 301 A.3.2 SOME SIMPLE EXAMPLES 302 A.3.3 CONVOLUTION 305 A.3.4 SAMPLING AND ALIASING 307 A.4 FRAUNHOFER DIFFRACTION 311 A.4.1 RANDOM OBJECTS AND THEIR DIFFRACTION PATTERNS: SPECKLE IMAGES 313 APPENDIX B 316 REFERENCES , 317 INDEX 319
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author	Labeyrie, Antoine Lipson, Stephen G. 1941- Nisenson, Peter
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spelling	Labeyrie, Antoine Verfasser aut An introduction to optical stellar interferometry A. Labeyrie, S. G. Lipson, and P. Nisenson 1. publ. Cambridge [u.a.] Cambridge University Press 2006 XXXIII, 325 S. Ill., graph. Darst. 26 cm txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Astronomie Interferometrie gtt Interféromètres optiques Optische astronomie gtt Optical interferometers Astronomy Astronomie (DE-588)4003311-9 gnd rswk-swf Interferometrie (DE-588)4027296-5 gnd rswk-swf Optische Strahlung (DE-588)4230288-2 gnd rswk-swf Interferometrie (DE-588)4027296-5 s Astronomie (DE-588)4003311-9 s Optische Strahlung (DE-588)4230288-2 s DE-604 Lipson, Stephen G. 1941- Verfasser (DE-588)115758232 aut Nisenson, Peter Verfasser aut http://www.loc.gov/catdir/enhancements/fy0702/2006283704-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy0702/2006283704-t.html Table of contents only GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015587798&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Labeyrie, Antoine Lipson, Stephen G. 1941- Nisenson, Peter An introduction to optical stellar interferometry Astronomie Interferometrie gtt Interféromètres optiques Optische astronomie gtt Optical interferometers Astronomy Astronomie (DE-588)4003311-9 gnd Interferometrie (DE-588)4027296-5 gnd Optische Strahlung (DE-588)4230288-2 gnd
subject_GND	(DE-588)4003311-9 (DE-588)4027296-5 (DE-588)4230288-2
title	An introduction to optical stellar interferometry
title_auth	An introduction to optical stellar interferometry
title_exact_search	An introduction to optical stellar interferometry
title_exact_search_txtP	An introduction to optical stellar interferometry
title_full	An introduction to optical stellar interferometry A. Labeyrie, S. G. Lipson, and P. Nisenson
title_fullStr	An introduction to optical stellar interferometry A. Labeyrie, S. G. Lipson, and P. Nisenson
title_full_unstemmed	An introduction to optical stellar interferometry A. Labeyrie, S. G. Lipson, and P. Nisenson
title_short	An introduction to optical stellar interferometry
title_sort	an introduction to optical stellar interferometry
topic	Astronomie Interferometrie gtt Interféromètres optiques Optische astronomie gtt Optical interferometers Astronomy Astronomie (DE-588)4003311-9 gnd Interferometrie (DE-588)4027296-5 gnd Optische Strahlung (DE-588)4230288-2 gnd
topic_facet	Astronomie Interferometrie Interféromètres optiques Optische astronomie Optical interferometers Astronomy Optische Strahlung
url	http://www.loc.gov/catdir/enhancements/fy0702/2006283704-d.html http://www.loc.gov/catdir/enhancements/fy0702/2006283704-t.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015587798&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT labeyrieantoine anintroductiontoopticalstellarinterferometry AT lipsonstepheng anintroductiontoopticalstellarinterferometry AT nisensonpeter anintroductiontoopticalstellarinterferometry

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