Verfügbarkeit: The design and construction of large optical telescopes

The design and construction of large optical telescopes:

Gespeichert in:

Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 2003
Schriftenreihe:	Astronomy and astrophysics library
Schlagworte:	Télescopes géants - Conception et construction Large astronomical telescopes > Design and construction Spiegelteleskop
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXIV, 505 S. Ill., graph. Darst. : 25 cm
ISBN:	0387955127

Internformat

MARC


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adam_text	CONTENTS PREFACE VII CONTRIBUTORS AND REVIEWERS XIX CREDITS FOR FIGURES AND TABLES XXIII INTRODUCTION 1 1 ASTRONOMICAL OBSERVATIONS 5 1.1 ROLE OF ASTRONOMICAL TELESCOPES . 5 1.2 SOURCE CHARACTERISTICS . 5 1.2.1 INTENSITY . 5 1.2.2 DISTRIBUTION OF SOURCES OF INTEREST IN THE SKY . 7 1.3 OBSERVING THROUGH THE ATMOSPHERE . 9 1.3.1 ATMOSPHERIC EXTINCTION . 9 1.3.2 ATMOSPHERIC EMISSION . 11 1.3.3 ATMOSPHERIC REFRACTION . 12 1.3.4 ATMOSPHERIC TURBULENCE: BASIC NOTIONS . 13 1.3.5 ATMOSPHERIC TURBULENCE: THE PHYSICS OF SEEING . 17 1.4 BACKGROUND SOURCES . 19 1.4.1 CELESTIAL BACKGROUNDS . 19 1.4.2 ATMOSPHERIC BACKGROUND . 22 1.4.3 STRAY LIGHT AND DETECTOR BACKGROUND . 22 1.4.4 COPING WITH ATMOSPHERIC AND TELESCOPE THERMAL EMISSION 22 X CONTENTS 1.5 SIGNAL-TO-NOISE RATIO . 24 1.6 TIME . 28 1.6.1 SIDEREAL TIME . 28 1.6.2 JULIAN DATE . 28 1.7 COORDINATE SYSTEMS . 29 1.8 POINTING CORRECTIONS . 31 1.8.1 PRECESSION AND NUTATION . 32 1.8.2 PROPER MOTION . 32 1.8.3 PARALLAX . 32 1.8.4 ABERRATION OF STARLIGHT . 33 1.8.5 ATMOSPHERIC REFRACTION . 35 1.9 TELESCOPE POINTING AND TRACKING PROCEDURE . 35 1.9.1 TARGET ACQUISITION . 35 1.9.2 GUIDING . 36 1.9.3 GUIDE STAR CATALOGS . 36 1.10 TELESCOPES AND INTERFEROMETERS . 37 REFERENCES . 39 BIBLIOGRAPHY . 40 2 INSTRUMENTS 41 2.1 MAIN TYPES OF INSTRUMENT . 41 2.1.1 CAMERAS . 42 2.1.2 PHOTOMETER . 43 2.1.3 POLARIMETERS . 44 2.1.4 DISPERSING SPECTROMETERS . 44 2.1.5 FABRY-PEROT SPECTROMETER . 47 2.1.6 FOURIER TRANSFORM SPECTROMETER . 48 2.2 OPTICAL THROUGH MID-INFRARED DETECTORS . 49 2.2.1 PHOTON DETECTION IN SEMICONDUCTORS . 50 2.2.2 CCD DETECTORS . 52 2.2.3 INFRARED ARRAY DETECTORS . 53 2.2.4 SPECIFIC DETECTOR CHARACTERISTICS . 55 2.3 RELAY OPTICS . 59 2.4 CRYOGENIC SYSTEMS . 60 REFERENCES . 61 BIBLIOGRAPHY . 61 3 DESIGN METHODS AND PROJECT MANAGEMENT 62 3.1 THE PROJECT LIFE CYCLE . 63 3.2 THE TOOLS OF SYSTEMS ENGINEERING . 66 3.2.1 DESIGN REFERENCE PROGRAM . 67 3.2.2 REQUIREMENTS " FLOWDOWN " . 69 3.2.3 ERROR BUDGETS . 72 3.2.4 END-TO-END COMPUTER SIMULATIONS . 74 3.2.5 DESIGN TESTABILITY AND FORGIVENESS . 75 CONTENTS XI 3.2.6 SCALING LAWS . 76 3.2.7 COST MODELS . 78 3.2.8 COST AS A DESIGN VARIABLE . 79 3.2.9 OBSERVATORY PERFORMANCE METRICS . 81 3.3 PROJECT MANAGEMENT . 86 3.3.1 GENERAL PRINCIPLES . 87 3.3.2 PROJECT ORGANIZATION . 88 3.3.3 WORK BREAKDOWN STRUCTURE . 89 3.3.4 PROJECT DATA BASE . 90 3.3.5 PROCUREMENT STRATEGY . 90 3.3.6 TECHNOLOGY DEVELOPMENT . 91 3.3.7 RELIABILITY . 93 3.3.8 QUALITY ASSURANCE, VERIFICATION, AND VALIDATION . 94 3.3.9 INTERFACE DOCUMENTS . 95 3.3.10 CONFIGURATION MANAGEMENT . 95 3.4 PROJECT SCHEDULING . 96 3.5 RISK ANALYSIS . 99 3.6 COST ESTIMATES AND BUDGETING . 100 3.6.1 APPROACHES TO COST ESTIMATING . 100 3.6.2 BUDGETS OF MAIN FUNDING AGENCIES . 101 3.6.3 COST ESTIMATE ACCURACY . 101 3.6.4 CONSTRUCTION OF MULTIPLE UNITS . 102 3.6.5 BUDGETING AND RESOURCE PLANNING . 103 REFERENCES . 104 BIBLIOGRAPHY . 105 4 TELESCOPE OPTICS 106 4.1 OPTICAL DESIGN FUNDAMENTALS . 106 4.1.1 FUNDAMENTAL PRINCIPLES . 106 4.1.2 EQUATIONS OF CONIC SURFACES . 108 4.1.3 STOPS AND PUPILS . 108 4.1.4 PRIMARY ABERRATIONS . 110 4.1.5 WAVEFRONT ERRORS . ILL 4.1.6 DIFFRACTION EFFECTS . 114 4.1.7 IMAGE FORMATION . 115 4.2 TELESCOPE OPTICAL CONFIGURATIONS . 121 4.2.1 SINGLE-MIRROR SYSTEMS . 121 4.2.2 TWO-MIRROR SYSTEMS . 122 4.2.3 THREE AND FOUR-MIRROR SYSTEMS . 124 4.2.4 SYSTEMS WITH SPHERICAL MIRRORS . 126 4.2.5 AUXILIARY OPTICS . 126 4.3 OPTICAL ERROR BUDGET . 127 4.4 CRITERIA FOR IMAGE QUALITY . 129 4.5 SYSTEM ISSUES . 134 4.5.1 FOCUS SELECTION . 134 XII CONTENTS 4.5.2 SELECTION OF /-RATIO . 136 4.5.3 MATCHING PLATE SCALE TO THE DETECTOR RESOLUTION . 137 4.6 MIRROR BLANK MATERIALS . 139 4.6.1 GENERALITIES . 139 4.6.2 BOROSILICATE GLASS . 142 4.6.3 ULE FUSED SILICA . 143 4.6.4 LOW-THERMAL-EXPANSION GLASS CERAMIC . 143 4.6.5 SILICON CARBIDE . 144 4.6.6 BERYLLIUM . 145 4.6.7 ALUMINUM . 146 4.7 MIRROR STRUCTURAL DESIGN . 146 4.7.1 LIGHTWEIGHTED MIRRORS . 150 4.7.2 SEGMENTED MIRROR SYSTEMS . 151 4.7.3 THERMAL EFFECTS . 155 4.8 MIRROR PRODUCTION . 157 4.8.1 COMPUTER-CONTROLLED LAPPING . 160 4.8.2 STRESSED MIRROR FIGURING . 161 4.8.3 ACTIVE LAP FIGURING . 162 4.8.4 ULTRAPRECISION MACHINING . 162 4.8.5 ION BEAM FIGURING . 163 4.8.6 POSTFIGURING MECHANICAL DEFORMING . 164 4.9 OPTICAL SURFACE TESTING DURING MANUFACTURE . 165 4.9.1 TESTING PHILOSOPHY . 165 4.9.2 MAIN TESTING TECHNIQUES . 167 4.9.3 TESTING THE FIGURE OF PRIMARY MIRRORS . 171 4.9.4 TESTING SECONDARY MIRRORS . 172 4.9.5 MEASURING THE RADIUS OF CURVATURE . 173 4.9.6 ELIMINATING THE EFFECT OF GRAVITY . 173 4.9.7 TESTING CRYOGENIC MIRRORS . 173 4.10 MIRROR COATINGS AND WASHING . 174 4.10.1 MIRROR CLEANING . 174 4.10.2 COATING PLANT . 176 REFERENCES . 177 BIBLIOGRAPHY . 181 5 STRAY LIGHT CONTROL 183 5.1 CAUSES OF STRAY LIGHT . 183 5.2 FINDING AND FIXING STRAY LIGHT PROBLEMS . 184 5.3 BAFFLES AND STOPS . 185 5.3.1 APERTURE STOP . 185 5.3.2 FIELD STOP . 186 5.3.3 LYOT STOP . 186 5.3.4 BAFFLES . 187 5.3.5 BAFFLES FOR CASSEGRAIN SYSTEMS . 187 5.4 SCATTERING PROCESSES . 188 CONTENTS XIII 5.5 STRAY LIGHT ANALYSIS . 189 5.6 SURFACE SCATTERING PROPERTIES . 193 5.6.1 SCATTER FROM MIRRORS . 193 5.6.2 SCATTER FROM DIFFUSE BLACK SURFACES . 195 5.7 AN EXAMPLE OF PROTECTION AGAINST OFF-AXIS SOURCES: HST . 197 5.8 AN EXAMPLE OF MINIMIZING STRAY LIGHT FROM SELF-EMISSION: NGST 198 5.9 MINIMIZING THERMAL BACKGROUND IN GROUND-BASED TELESCOPES . . 199 REFERENCES . 200 BIBLIOGRAPHY . 201 6 TELESCOPE STRUCTURE AND MECHANISMS 202 6.1 GENERAL PRINCIPLES . 203 6.1.1 KINEMATIC MOUNTING . 203 6.1.2 MINIMIZING DECOLLIMATION . 205 6.1.3 USE OF PRELOAD . 207 6.1.4 LOAD PATHS . 208 6.1.5 DESIGNING OUT " STICK-SLIP " AND " MICROLURCHES " . 208 6.1.6 CHOICE OF MATERIALS . 210 6.1.7 ATHERMALIZATION . 212 6.1.8 STRUCTURAL DESIGN . 213 6.2 DESIGN REQUIREMENTS . 214 6.2.1 OPERATIONAL REQUIREMENTS . 214 6.2.2 SURVIVAL CONDITIONS . 215 6.3 MIRROR MOUNTS . 219 6.3.1 MOUNTS FOR SINGLE MIRRORS . 219 6.3.2 MOUNTS FOR SEGMENTED-MIRROR SYSTEMS . 223 6.4 TELESCOPE " TUBE " . 224 6.4.1 TUBE TRUSS . 225 6.4.2 TRIPOD AND TOWER-TYPE SUPPORTS FOR SECONDARY MIRRORS . 228 6.4.3 THERMAL EFFECTS . 229 6.4.4 CASSEGRAIN MIRROR " SPIDER " . 230 6.4.5 PRIMARY MIRROR CELL . 233 6.5 MOUNTS FOR GROUND-BASED TELESCOPES . 233 6.5.1 EQUATORIAL MOUNT . 233 6.5.2 ALTITUDE-AZIMUTH MOUNT . 235 6.5.3 ALTITUDE-ALTITUDE MOUNT . 236 6.5.4 FIXED-ALTITUDE AND FIXED-PRIMARY-MIRROR MOUNTS . 236 6.6 BEARINGS FOR GROUND TELESCOPES . 237 6.6.1 ROLLING BEARINGS . 238 6.6.2 HYDROSTATIC BEARINGS . 238 6.7 MISCELLANEOUS MECHANISMS . 242 6.7.1 OVERALL TELESCOPE ALIGNMENT . 242 6.7.2 OPTICS ALIGNMENT AND FOCUSING DEVICES . 242 6.7.3 ACTIVE SECONDARY MIRROR FOR INFRARED CHOPPING AND FIELD STABILIZATION . 243 XIV CONTENTS 6.7.4 BALANCING SYSTEMS . 245 6.7.5 CABLE WRAP AND CABLE TWIST . 245 6.7.6 MIRROR COVER . 246 6.8 SAFETY DEVICES . 247 6.8.1 BRAKES . 247 6.8.2 END STOPS . 248 6.8.3 LOCKING DEVICES . 248 6.8.4 EARTHQUAKE RESTRAINTS . 249 REFERENCES . 250 BIBLIOGRAPHY . 251 7 POINTING AND CONTROL 252 7.1 POINTING REQUIREMENTS . 253 7.2 SYSTEM MODELING . 253 7.2.1 FIRST-ORDER LUMPED-MASS MODELS . 255 7.2.2 MEDIUM-SIZE LUMPED-MASS OPTOMECHANICAL MODELS . . . 257 7.2.3 INTEGRATED MODELS . 257 7.3 POINTING SERVO SYSTEM . 263 7.3.1 FUNDAMENTALS OF SERVO SYSTEMS . 263 7.3.2 TELESCOPE CONTROL SYSTEM IMPLEMENTATION . 265 7.3.3 DISTURBANCE REJECTION . 271 7.4 ATTITUDE ACTUATORS . 273 7.4.1 DRIVES FOR GROUND-BASED TELESCOPES . 273 7.4.2 SPACE TELESCOPE ATTITUDE ACTUATORS . 279 7.5 ATTITUDE SENSORS AND GUIDING SYSTEM . 280 7.5.1 POSITION ENCODERS . 280 7.5.2 TACHOMETERS . 282 7.5.3 GYROSCOPES . 283 7.5.4 STAR TRACKERS AND SUN SENSORS . 284 7.5.5 GUIDING SYSTEM . 285 7.6 GROUND-BASED TELESCOPE DISTURBANCES . 288 7.6.1 EFFECTS OF WIND: GENERALITIES . 289 7.6.2 EFFECTS OF WIND ON TELESCOPE STRUCTURE . 291 7.6.3 EFFECT OF WIND ON PRIMARY MIRROR . 293 7.6.4 EFFECT OF WIND ON TELESCOPE PIER . 293 7.7 DISTURBANCES IN SPACE . 294 7.7.1 GRAVITY GRADIENT TORQUE . 295 7.7.2 AERODYNAMIC TORQUE . 296 7.7.3 SOLAR RADIATION TORQUE . 296 7.7.4 MAGNETIC TORQUE . 297 7.7.5 REACTION WHEEL DISTURBANCES . 298 7.7.6 OTHER INTERNALLY GENERATED DISTURBANCES . 300 7.8 ACTIVE AND PASSIVE VIBRATION CONTROL . 302 7.8.1 PASSIVE ISOLATION OF THE VIBRATION SOURCE . 303 7.8.2 ACTIVE ISOLATION . 305 CONTENTS XV 7.9 OBSERVATORY CONTROL SOFTWARE . 306 REFERENCES . 308 BIBLIOGRAPHY . 310 8 ACTIVE AND ADAPTIVE OPTICS 311 8.1 FUNDAMENTAL PRINCIPLES . 311 8.1.1 RESPECTIVE ROLES OF ACTIVE AND ADAPTIVE OPTICS . 311 8.1.2 ACTIVE AND ADAPTIVE OPTICS ARCHITECTURES . 313 8.2 WAVEFRONT SENSORS . 315 8.2.1 SHACK-HARTMANN SENSOR . 315 8.2.2 CURVATURE SENSING . 316 8.2.3 PHASE RETRIEVAL TECHNIQUES . 318 8.3 INTERNAL METROLOGY DEVICES . 319 8.3.1 EDGE SENSORS . 319 8.3.2 HOLOGRAPHIC GRATING PATCHES AND RETROREFLECTOR SYSTEMS 322 8.3.3 LASER METROLOGY SYSTEMS . 324 8.3.4 IPSRU . 324 8.4 WAVEFRONT CORRECTION SYSTEMS . 325 8.4.1 FINE STEERING MIRRORS . 325 8.4.2 DEFORMING THE MAIN OPTICS . 327 8.4.3 DEDICATED DEFORMABLE MIRROR . 330 8.5 CONTROL TECHNIQUES . 331 8.6 TYPICAL ACTIVE OPTICS SYSTEM IMPLEMENTATIONS . 332 8.6.1 THE VLT ACTIVE OPTICS SYSTEM . 332 8.6.2 COALIGNING, COFOCUSING, AND COPHASING SEGMENTED SYS TEMS . 333 8.7 CORRECTION OF SEEING . 338 8.7.1 HISTORICAL DEVELOPMENTS . 339 8.7.2 ADAPTIVE OPTICS USING NATURAL GUIDE STARS . 340 8.7.3 ADAPTIVE OPTICS WITH LASER STARS . 340 REFERENCES . 342 BIBLIOGRAPHY . 344 9 THERMAL CONTROL 345 9.1 GENERAL REQUIREMENTS . 345 9.2 THERMAL ENVIRONMENTAL CONDITIONS . 346 9.3 TEMPERATURE CONTROL TECHNIQUES . 346 9.4 THERMAL CONTROL FOR DIMENSIONAL CONTROL . 348 9.4.1 MIRROR FIGURE CONTROL . 348 9.4.2 CONTROLLING OPTICS SEPARATION AND ALIGNMENT . 349 9.5 AVOIDING LOCALLY INDUCED SEEING . 351 9.5.1 THERMAL CONTROL OF THE ENCLOSURE DURING THE DAY . 352 9.5.2 SEEING CAUSED BY A WARMER FLOOR . 353 9.5.3 SEEING DUE TO HEAT SOURCES OR SINKS IN THE TELESCOPE CHAMBER . 354 XVI CONTENTS 9.5.4 SEEING DUE TO TELESCOPE STRUCTURE COLD AREAS . 356 9.5.5 MIRROR SEEING . 356 REFERENCES . 360 BIBLIOGRAPHY . 360 10 INTEGRATION AND VERIFICATION 361 10.1 INTEGRATION AND VERIFICATION PROGRAM, METHODS, AND TECHNIQUES 362 10.1.1 VERIFICATION METHODS . 363 10.1.2 INCREMENTAL VERIFICATION . 363 10.1.3 VERIFICATION REQUIREMENTS MATRIX . 364 10.1.4 VERIFICATION BASED ON END-TO-END COMPUTER MODELING . . 365 10.2 OBSERVATORY VALIDATION . 366 10.2.1 ENGINEERING VERIFICATION . 366 10.2.2 SCIENCE VERIFICATION . 366 REFERENCES . 367 BIBLIOGRAPHY . 367 11 OBSERVATORY ENCLOSURE 368 11.1 ENCLOSURE FUNCTIONS AND REQUIREMENTS . 369 11.2 OVERALL ENCLOSURE CONFIGURATION . 369 11.3 HEIGHT OF TELESCOPE CHAMBER ABOVE THE GROUND . 372 11.4 WIND PROTECTION AND FLUSHING . 372 11.4.1 BASIC PRINCIPLES . 372 11.4.2 WINDSCREENS AND LOUVERS . 374 11.4.3 WIND AND WATER-TUNNEL STUDIES AND NUMERICAL MODEL ING . 375 11.4.4 ACOUSTIC MODES IN THE ENCLOSURE . 376 11.5 THERMAL DESIGN . 376 11.5.1 BASIC PRINCIPLES . 376 11.5.2 ENCLOSURE EXTERNAL SKIN EMISSIVITY . 380 11.6 STRUCTURAL AND MECHANICAL DESIGN . 380 11.6.1 LOADING CASES . 380 11.6.2 ENCLOSURE SHAPE . 381 11.6.3 SHUTTER . 382 11.6.4 BOGIES AND DRIVE . 383 11.6.5 WEATHER SEALS . 384 11.7 TELESCOPE PIER . 385 11.8 HANDLING EQUIPMENT . 386 REFERENCES . 387 12 OBSERVATORY SITES 389 12.1 GROUND VERSUS SPACE . 389 12.1.1 ADVANTAGES OF GROUND-BASED FACILITIES . 389 12.1.2 ADVANTAGES OF SPACE-BASED FACILITIES . 390 12.1.3 AIRCRAFT AND BALLOONS . 392 CONTENTS XVII 12.1.4 CAPABILITIES OF VARIOUS OBSERVATORY PLATFORMS . 392 12.2 DESIRABLE CHARACTERISTICS FOR GROUND-BASED SITES . 393 12.2.1 SEEING . 394 12.2.2 CRITERIA FOR EXTREMELY LARGE TELESCOPES OF THE FUTURE . . 397 12.3 LOCATION AND CHARACTERISTICS OF THE BEST OBSERVING SITES . 398 12.3.1 CHARACTERISTICS OF THE MAJOR OBSERVATORY SITES . 400 12.4 EVALUATION METHODS FOR GROUND-BASED SITES . 401 12.4.1 METHODS FOR TESTING IMAGE QUALITY . 401 12.4.2 MICROTHERMAL SENSORS . 402 12.4.3 ACOUSTIC SOUNDER . 402 12.4.4 SITE FLOW VISUALIZATION . 404 12.4.5 RADIOSONDES . 404 12.4.6 NUMERICAL MODELING OF THE ATMOSPHERE . 405 12.4.7 OPTICAL SEEING MONITORS . 406 12.5 SPACE ORBITS AND THE MOON . 408 12.5.1 LOW-INCLINATION LOW EARTH ORBIT . 408 12.5.2 SUN-SYNCHRONOUS ORBITS . 410 12.5.3 GEOSTATIONARY AND GEOSYNCHRONOUS ORBITS . 411 12.5.4 HIGH EARTH ORBITS . 412 12.5.5 SUN-EARTH LAGRANGIAN POINT 2 . 412 12.5.6 DRIFT-AWAY ORBIT . 414 12.5.7 HELIOCENTRIC ELLIPTICAL ORBIT . 415 12.5.8 MOON . 415 12.5.9 SUN-JUPITER LAGRANGIAN POINT 2 . 416 12.6 RADIATION IN THE SPACE ENVIRONMENT . 417 12.6.1 SOURCES OF RADIATION . 417 12.6.2 RADIATION EFFECTS . 418 12.6.3 DEPENDENCE OF RADIATION LEVELS ON OBSERVATORY LOCATION . 419 12.7 LAUNCHERS . 422 REFERENCES . 423 BIBLIOGRAPHY . 425 A COMMONLY USED SYMBOLS 426 B BASIC DATA AND UNIT CONVERSIONS 427 C THE LARGEST TELESCOPES 429 D SHARPNESS 433 E DERIVATION OF THE EQUATION OF MOTIONS 436 F GLOSSARY 439 INDEX 486
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series2	Astronomy and astrophysics library
spelling	The design and construction of large optical telescopes Pierre Y. Bely ed. New York [u.a.] Springer 2003 XXIV, 505 S. Ill., graph. Darst. : 25 cm txt rdacontent n rdamedia nc rdacarrier Astronomy and astrophysics library Literaturangaben Télescopes géants - Conception et construction Large astronomical telescopes Design and construction Spiegelteleskop (DE-588)4182256-0 gnd rswk-swf Spiegelteleskop (DE-588)4182256-0 s DE-604 Bely, Pierre Y. Sonstige oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010259160&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	The design and construction of large optical telescopes Télescopes géants - Conception et construction Large astronomical telescopes Design and construction Spiegelteleskop (DE-588)4182256-0 gnd
subject_GND	(DE-588)4182256-0
title	The design and construction of large optical telescopes
title_auth	The design and construction of large optical telescopes
title_exact_search	The design and construction of large optical telescopes
title_full	The design and construction of large optical telescopes Pierre Y. Bely ed.
title_fullStr	The design and construction of large optical telescopes Pierre Y. Bely ed.
title_full_unstemmed	The design and construction of large optical telescopes Pierre Y. Bely ed.
title_short	The design and construction of large optical telescopes
title_sort	the design and construction of large optical telescopes
topic	Télescopes géants - Conception et construction Large astronomical telescopes Design and construction Spiegelteleskop (DE-588)4182256-0 gnd
topic_facet	Télescopes géants - Conception et construction Large astronomical telescopes Design and construction Spiegelteleskop
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010259160&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT belypierrey thedesignandconstructionoflargeopticaltelescopes

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