Solar sailing: technology, dynamics and mission applications
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
London [u.a.]
Springer
1999
|
| Schriftenreihe: | Springer-Praxis series in space science and technology
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XXV, 296 S. Ill., graph. Darst. |
| ISBN: | 185233102X |
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| 245 | 1 | 0 | |a Solar sailing |b technology, dynamics and mission applications |
| 264 | 1 | |a London [u.a.] |b Springer |c 1999 | |
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| 650 | 4 | |a Voile solaire | |
| 650 | 4 | |a Orbital dynamics | |
| 650 | 4 | |a Solar sails | |
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Datensatz im Suchindex
| _version_ | 1804135921122017280 |
|---|---|
| adam_text | COLIN ROBERT MCLNNES SOLAR SAILING TECHNOLOGY, DYNAMICS AND MISSION
APPLICATIONS SPRINGER PUBLISHED IN ASSOCIATION WITH PRAXIS PUBLISHING
CHICHESTER, UK PR CONTENTS LIST OF ILLUSTRATIONS AND TABLES XV FOREWORD
XXI AUTHOR S PREFACE XXIII ACKNOWLEDGEMENTS XXVII GLOSSARY OF TERMS XXIX
1 INTRODUCTION TO SOLAR SAILING 1 1.1 PRINCIPLES OF SOLAR SAILING 1 1.2
PERSPECTIVES 2 1.2.1 PIONEERS 2 1.2.2 EARLY OPTIMISM 3 1.2.3 CHASING A
COMET 5 1.2.4 CELESTIAL RACES 7 1.2.5 TESTING TIMES 7 1.2.6 NEW
MILLENNIUM 9 1.2.7 LESSONS OF HISTORY 10 1.3 PRACTICALITIES OF SOLAR
SAILING 11 1.3.1 SOLAR SAIL CONFIGURATIONS 11 1.3.2 PERFORMANCE METRICS
13 1.3.3 SOLAR SAIL ORBITS 14 1.3.4 COMPARISON WITH OTHER PROPULSION
SYSTEMS 17 1.4 SOLAR SAIL MISSION APPLICATIONS^. 19 1.4.1 APPLICABILITY
19 1.4.2 INNER SOLAR SYSTEM MISSIONS 21 1.4.3 OUTER SOLAR SYSTEM
MISSIONS 23 1.4.4 NON-KEPLERIAN ORBITS 24 X CONTENTS 1.5 FUTURE
DEVELOPMENT 25 1.5.1 NEAR TERM 25 1.5.2 AUTONOMOUS EXPLORERS * 27 1.5.3
SPECULATION 28 1.6 FURTHER READING 29 HISTORICAL INTEREST 29 SELECTED
INTRODUCTORY PAPERS 30 SOLAR SAILING BOOKS 31 SOLAR SAIL INTERNET SITES
31 2 SOLAR RADIATION PRESSURE 32 2.1 INTRODUCTION 32 2.2 HISTORICAL VIEW
OF SOLAR RADIATION PRESSURE 33 2.3 THE PHYSICS OF RADIATION PRESSURE 34
2.3.1 QUANTUM DESCRIPTION 34 2.3.2 ELECTROMAGNETIC DESCRIPTION 36 2.3.3
FORCE ON A PERFECTLY REFLECTING SOLAR SAIL 38 2.4 RADIATIVE TRANSFER
METHODS 40 2.4.1 SPECIFIC INTENSITY 40 2.4.2 ANGULAR MOMENTS OF SPECIFIC
INTENSITY 42 2.5 RADIATION PRESSURE WITH A FINITE SOLAR DISC 43 2.5.1
WHY THE INVERSE SQUARE LAW IS INADEQUATE 43 2.5.2 UNIFORMLY BRIGHT SOLAR
DISC 43 2.5.3 LIMB-DARKENED SOLAR DISC 46 2.6 SOLAR SAIL FORCE MODELS 46
2.6.1 OPTICAL FORCE MODEL 47 2.6.2 PARAMETRIC FORCE MODEL 51 2.7 OTHER
FORCES 54 2.8 SUMMARY 54 2.9, - FURTHER READING 55 HISTORICAL INTEREST
55 RADIATIVE TRANSFER 55 SOLAR SAIL FORCE MODEL 55 3 SOLAR SAIL DESIGN
56 3.1 INTRODUCTION 56 3.2 DESIGN PARAMETERS 57 3.3 SAIL FILMS 60 3.3.1
DESIGN CONSIDERATIONS 60 3.3.2 SUBSTRATES . , 61 3.3.3 COATINGS . . . 62
3.3.4 METALLIC SAIL FILMS 64 3.3.5 ENVIRONMENTAL EFFECTS 66 3.3.6 SAIL
BONDING, FOLDING AND PACKING 67 3.4 SOLAR SAIL STRUCTURES 69 CONTENTS XI
3.5 SOLAR SAIL CONFIGURATIONS 71 3.5.1 OPTIMUM SOLAR SAIL CONFIGURATIONS
72 3.5.2 THREE-AXIS STABILISED SQUARE SAIL. * * * *, 76 3.5.3
SPIN-STABILISED HELIOGYRO 81 3.5.4 SPIN-STABILISED DISC SAIL 89 3.5.5
SOLAR PHOTON THRUSTER 91 3.5.6 HIGH-PERFORMANCE SOLAR SAILS 95 3.5.7
MICRO-SOLAR SAILS 97 3.6 RECENT CASE STUDIES IN SOLAR SAIL DESIGN 99
3.6.1 WORLD SPACE FOUNDATION (WSF) 99 3.6.2 UNION POUR LA PROMOTION DE
LA PROPULSION PHOTONIQUE (U3P) 102 3.6.3 JOHNS HOPKINS UNIVERSITY (JHU)
103 3.6.4 MASSACHUSETTS INSTITUTE OF TECHNOLOGY (MIT) 104 3.6.5
CAMBRIDGE CONSULTANTS LTD (CCL) 105 3.6.6 ODISSEE MISSION (DLR/JPL) 107
3.7 SUMMARY 109 3.8 FURTHER READING 109 NON-SPINNING SOLAR SAILS 109
SPINNING SOLAR SAILS 110 HIGH-PERFORMANCE SOLAR SAILS 110 SOLAR SAIL
TECHNOLOGIES 110 ATTITUDE CONTROL ILL SOLAR SAIL ORBITAL DYNAMICS 112
4.1 INTRODUCTION 112 4.2 EQUATIONS OF MOTION 113 4.2.1 VECTOR EQUATION
OF MOTION 113 4.2.2 SAIL FORCE VECTOR 115 4.2.3 POLAR EQUATIONS OF
MOTION 118 4.2.4 LAGRANGE VARIATIONAL EQUATIONS 119 4.3 SUN-CENTRED
ORBITS 120 4.3.1 INTRODUCTION 120 4.3.2 CONIC SECTION ORBITS 121 4.3.3
LOGARITHMIC SPIRAL TRAJECTORIES 129 4.3.4 LOCALLY OPTIMAL TRAJECTORIES
136 4.3.5 GLOBALLY OPTIMAL TRAJECTORIES 148 4.4 PLANET-CENTRED ORBITS
151 4.4.1 INTRODUCTION 151 4.4.2 SUBOPTIMAL TRAJECTORIES 152 4.4.3
MINIMUM TIME ESCAPE TRAJECTORIES 163 4.4.4 APPROXIMATE ESCAPE TIME 163
4.4.5 SOLUTION BY THE HAMILTON-JACOBI METHOD 164 4.5 SUMMARY 168 XII
CONTENTS 4.6 FURTHER READING 169 SUN-CENTRED TRAJECTORIES 169 MINIMUM
TIME TRAJECTORIES ^ 169 PLANET-CENTRED TRAJECTORIES 170 MISCELLANEOUS
170 5 NON-KEPLERIAN ORBITS 171 5.1 INTRODUCTION 171 5.2 SUN-CENTRED
NON-KEPLERIAN ORBITS 173 5.2.1 INTRODUCTION 173 5.2.2 NON-KEPLERIAN
ORBIT SOLUTIONS 173 5.2.3 SUN-CENTRED NON-KEPLERIAN ORBIT STABILITY 180
5.2.4 SUN-CENTRED NON-KEPLERIAN ORBIT CONTROL 188 5.2.5 PATCHED ORBITS
193 5.3 PLANET-CENTRED NON-KEPLERIAN ORBITS 196 5.3.1 INTRODUCTION 196
5.3.2 NON-KEPLERIAN ORBIT SOLUTIONS 197 5.3.3 PLANET-CENTRED
NON-KEPLERIAN ORBIT STABILITY 202 5.3.4 PLANET-CENTRED NON-KEPLERIAN
ORBIT CONTROL 206 5.3.5 PATCHED ORBITS 211 5.4 SOLAR SAILS IN RESTRICTED
THREE-BODY SYSTEMS 214 5.4.1 INTRODUCTION 214 5.4.2 THE CLASSICAL
RESTRICTED THREE-BODY PROBLEM 214 5.4.3 EQUILIBRIUM SOLUTIONS 215 5.4.4
REGIONS OF EXISTENCE OF EQUILIBRIUM SOLUTIONS 217 5.4.5 EQUILIBRIUM
SOLUTIONS IN THE EARTH-SUN SYSTEM 219 5.4.6 STABILITY OF EQUILIBRIUM
SOLUTIONS 221 5.4.7 LUNAR LAGRANGE POINT ORBITS 223 5.5 EFFECT OF A REAL
SOLAR SAIL MODEL 224 5.6 SUMMARY 226 5.7 FURTHER READING 227 SUN-CENTRED
NON-KEPLERIAN ORBITS 227 PLANET-CENTRED NON-KEPLERIAN ORBITS 228
ARTIFICIAL LAGRANGE POINTS 228 6 MISSION APPLICATION CASE STUDIES 229
6.1 INTRODUCTION 229 6.2 GEOSTORM MISSION 231 6.2.1 BACKGROUND 231 6.2.2
MISSION CONCEPT 233 6.2.3 MISSION ORBIT ,. 234 6.2.4 SOLAR SAIL DESIGN ;
236 6.2.5 OTHER CONCEPTS 238 6.3 SOLAR POLAR SAIL MISSION 238 6.3.1
BACKGROUND 238 CONTENTS XIII 6.3.2 MISSION CONCEPT 239 6.3.3 MISSION
ORBIT 241 6.3.4 SOLAR SAIL DESIGN 241 6.4 MERCURY ORBITER 243 6.4.1
BACKGROUND 243 6.4.2 MISSION CONCEPT . . . - 243 6.4.3 MISSION ORBIT 244
6.4.4 SOLAR SAIL DESIGN 247 6.5 SAMPLE RETURN MISSIONS 247 6.5.1
BACKGROUND 247 6.5.2 MISSION CONCEPTS 249 6.6 POLAR OBSERVER 250 6.6.1
BACKGROUND 250 6.6.2 MISSION CONCEPT 251 6.6.3 MISSION ORBIT 254 6.7
MICRO-SOLAR SAIL CONSTELLATIONS 257 6.7.1 BACKGROUND 257 6.7.2 MISSION
CONCEPTS 257 6.8 NON-KEPLERIAN ORBITS 258 6.8.1 SUN-CENTRED
NON-KEPLERIAN ORBITS 258 6.8.2 PLANET-CENTRED NON-KEPLERIAN ORBITS 260
6.9 OUTER SOLAR SYSTEM MISSIONS 261 6.9.1 BACKGROUND 261 6.9.2 MISSION
ORBIT 262 6.9.3 OUTER PLANET MISSIONS 264 6.9.4 550 AU AND BEYOND 266
6.10 SUMMARY 267 6.11 FURTHER READING 268 SOLAR STORM MISSIONS 268 SOLAR
POLAR MISSIONS 268 MERCURY ORBITER MISSIONS 268 NON-KEPLERIAN ORBITS 269
OUTER SOLAR SYSTEM MISSIONS 269 MISCELLANEOUS 270 7 LASER-DRIVEN LIGHT
SAILS 271 7.1 INTRODUCTION 271 7.2 LIGHT SAIL PHYSICS 272 7.3 LIGHT SAIL
MECHANICS 274 7.3.1 LIGHT SAIL EFFICIENCY 274 7.3.2 CLASSICAL LIGHT SAIL
MECHANICS 275 7.3.3 RELATIVISTIC LIGHT SAIL MECHANICS 278 7.4 LIGHT SAIL
DESIGN 281 7.4.1 LIGHT SAIL FILMS 281 7.4.2 LASER SYSTEMS 283 XIV
CONTENTS 7.4.3 OPTICAL COLLIMATING SYSTEMS 284 7.4.4 IMPACT DAMAGE AND
INTERSTELLAR DRAG 285 7.5 MISSION APPLICATIONS _. 287 7.5.1 INTERSTELLAR
PRECURSOR 287 7.5.2 INTERSTELLAR PROBE 288 7.6 SUMMARY * 291 7.7 FURTHER
READING 292 INDEX 293
|
| adam_txt |
COLIN ROBERT MCLNNES SOLAR SAILING TECHNOLOGY, DYNAMICS AND MISSION
APPLICATIONS SPRINGER PUBLISHED IN ASSOCIATION WITH PRAXIS PUBLISHING
CHICHESTER, UK PR CONTENTS LIST OF ILLUSTRATIONS AND TABLES XV FOREWORD
XXI AUTHOR'S PREFACE XXIII ACKNOWLEDGEMENTS XXVII GLOSSARY OF TERMS XXIX
1 INTRODUCTION TO SOLAR SAILING 1 1.1 PRINCIPLES OF SOLAR SAILING 1 1.2
PERSPECTIVES 2 1.2.1 PIONEERS 2 1.2.2 EARLY OPTIMISM 3 1.2.3 CHASING A
COMET 5 1.2.4 CELESTIAL RACES 7 1.2.5 TESTING TIMES 7 1.2.6 NEW
MILLENNIUM 9 1.2.7 LESSONS OF HISTORY 10 1.3 PRACTICALITIES OF SOLAR
SAILING 11 1.3.1 SOLAR SAIL CONFIGURATIONS 11 1.3.2 PERFORMANCE METRICS
13 1.3.3 SOLAR SAIL ORBITS 14 1.3.4 COMPARISON WITH OTHER PROPULSION
SYSTEMS 17 1.4 SOLAR SAIL MISSION APPLICATIONS^. 19 1.4.1 APPLICABILITY
19 1.4.2 INNER SOLAR SYSTEM MISSIONS 21 1.4.3 OUTER SOLAR SYSTEM
MISSIONS 23 1.4.4 NON-KEPLERIAN ORBITS 24 X CONTENTS 1.5 FUTURE
DEVELOPMENT 25 1.5.1 NEAR TERM 25 1.5.2 AUTONOMOUS EXPLORERS * 27 1.5.3
SPECULATION 28 1.6 FURTHER READING 29 HISTORICAL INTEREST 29 SELECTED
INTRODUCTORY PAPERS 30 SOLAR SAILING BOOKS 31 SOLAR SAIL INTERNET SITES
31 2 SOLAR RADIATION PRESSURE 32 2.1 INTRODUCTION 32 2.2 HISTORICAL VIEW
OF SOLAR RADIATION PRESSURE 33 2.3 THE PHYSICS OF RADIATION PRESSURE 34
2.3.1 QUANTUM DESCRIPTION 34 2.3.2 ELECTROMAGNETIC DESCRIPTION 36 2.3.3
FORCE ON A PERFECTLY REFLECTING SOLAR SAIL 38 2.4 RADIATIVE TRANSFER
METHODS 40 2.4.1 SPECIFIC INTENSITY 40 2.4.2 ANGULAR MOMENTS OF SPECIFIC
INTENSITY 42 2.5 RADIATION PRESSURE WITH A FINITE SOLAR DISC 43 2.5.1
WHY THE INVERSE SQUARE LAW IS INADEQUATE 43 2.5.2 UNIFORMLY BRIGHT SOLAR
DISC 43 2.5.3 LIMB-DARKENED SOLAR DISC 46 2.6 SOLAR SAIL FORCE MODELS 46
2.6.1 OPTICAL FORCE MODEL 47 2.6.2 PARAMETRIC FORCE MODEL 51 2.7 OTHER
FORCES 54 2.8 SUMMARY 54 2.9, - FURTHER READING 55 HISTORICAL INTEREST
55 RADIATIVE TRANSFER 55 SOLAR SAIL FORCE MODEL 55 3 SOLAR SAIL DESIGN
56 3.1 INTRODUCTION 56 3.2 DESIGN PARAMETERS 57 3.3 SAIL FILMS 60 3.3.1
DESIGN CONSIDERATIONS 60 3.3.2 SUBSTRATES . , 61 3.3.3 COATINGS . . . 62
3.3.4 METALLIC SAIL FILMS 64 3.3.5 ENVIRONMENTAL EFFECTS 66 3.3.6 SAIL
BONDING, FOLDING AND PACKING 67 3.4 SOLAR SAIL STRUCTURES 69 CONTENTS XI
3.5 SOLAR SAIL CONFIGURATIONS 71 3.5.1 OPTIMUM SOLAR SAIL CONFIGURATIONS
72 3.5.2 THREE-AXIS STABILISED SQUARE SAIL. * * * *, 76 3.5.3
SPIN-STABILISED HELIOGYRO 81 3.5.4 SPIN-STABILISED DISC SAIL 89 3.5.5
SOLAR PHOTON THRUSTER 91 3.5.6 HIGH-PERFORMANCE SOLAR SAILS 95 3.5.7
MICRO-SOLAR SAILS 97 3.6 RECENT CASE STUDIES IN SOLAR SAIL DESIGN 99
3.6.1 WORLD SPACE FOUNDATION (WSF) 99 3.6.2 UNION POUR LA PROMOTION DE
LA PROPULSION PHOTONIQUE (U3P) 102 3.6.3 JOHNS HOPKINS UNIVERSITY (JHU)
103 3.6.4 MASSACHUSETTS INSTITUTE OF TECHNOLOGY (MIT) 104 3.6.5
CAMBRIDGE CONSULTANTS LTD (CCL) 105 3.6.6 ODISSEE MISSION (DLR/JPL) 107
3.7 SUMMARY 109 3.8 FURTHER READING 109 NON-SPINNING SOLAR SAILS 109
SPINNING SOLAR SAILS 110 HIGH-PERFORMANCE SOLAR SAILS 110 SOLAR SAIL
TECHNOLOGIES 110 ATTITUDE CONTROL ILL SOLAR SAIL ORBITAL DYNAMICS 112
4.1 INTRODUCTION 112 4.2 EQUATIONS OF MOTION 113 4.2.1 VECTOR EQUATION
OF MOTION 113 4.2.2 SAIL FORCE VECTOR 115 4.2.3 POLAR EQUATIONS OF
MOTION 118 4.2.4 LAGRANGE VARIATIONAL EQUATIONS 119 4.3 SUN-CENTRED
ORBITS 120 4.3.1 INTRODUCTION 120 4.3.2 CONIC SECTION ORBITS 121 4.3.3
LOGARITHMIC SPIRAL TRAJECTORIES 129 4.3.4 LOCALLY OPTIMAL TRAJECTORIES
136 4.3.5 GLOBALLY OPTIMAL TRAJECTORIES 148 4.4 PLANET-CENTRED ORBITS
151 4.4.1 INTRODUCTION 151 4.4.2 SUBOPTIMAL TRAJECTORIES 152 4.4.3
MINIMUM TIME ESCAPE TRAJECTORIES 163 4.4.4 APPROXIMATE ESCAPE TIME 163
4.4.5 SOLUTION BY THE HAMILTON-JACOBI METHOD 164 4.5 SUMMARY 168 XII
CONTENTS 4.6 FURTHER READING 169 SUN-CENTRED TRAJECTORIES 169 MINIMUM
TIME TRAJECTORIES ^ 169 PLANET-CENTRED TRAJECTORIES 170 MISCELLANEOUS
170 5 NON-KEPLERIAN ORBITS 171 5.1 INTRODUCTION 171 5.2 SUN-CENTRED
NON-KEPLERIAN ORBITS 173 5.2.1 INTRODUCTION 173 5.2.2 NON-KEPLERIAN
ORBIT SOLUTIONS 173 5.2.3 SUN-CENTRED NON-KEPLERIAN ORBIT STABILITY 180
5.2.4 SUN-CENTRED NON-KEPLERIAN ORBIT CONTROL 188 5.2.5 PATCHED ORBITS
193 5.3 PLANET-CENTRED NON-KEPLERIAN ORBITS 196 5.3.1 INTRODUCTION 196
5.3.2 NON-KEPLERIAN ORBIT SOLUTIONS 197 5.3.3 PLANET-CENTRED
NON-KEPLERIAN ORBIT STABILITY 202 5.3.4 PLANET-CENTRED NON-KEPLERIAN
ORBIT CONTROL 206 5.3.5 PATCHED ORBITS 211 5.4 SOLAR SAILS IN RESTRICTED
THREE-BODY SYSTEMS 214 5.4.1 INTRODUCTION 214 5.4.2 THE CLASSICAL
RESTRICTED THREE-BODY PROBLEM 214 5.4.3 EQUILIBRIUM SOLUTIONS 215 5.4.4
REGIONS OF EXISTENCE OF EQUILIBRIUM SOLUTIONS 217 5.4.5 EQUILIBRIUM
SOLUTIONS IN THE EARTH-SUN SYSTEM 219 5.4.6 STABILITY OF EQUILIBRIUM
SOLUTIONS 221 5.4.7 LUNAR LAGRANGE POINT ORBITS 223 5.5 EFFECT OF A REAL
SOLAR SAIL MODEL 224 5.6 SUMMARY 226 5.7 FURTHER READING 227 SUN-CENTRED
NON-KEPLERIAN ORBITS 227 PLANET-CENTRED NON-KEPLERIAN ORBITS 228
ARTIFICIAL LAGRANGE POINTS 228 6 MISSION APPLICATION CASE STUDIES 229
6.1 INTRODUCTION 229 6.2 GEOSTORM MISSION 231 6.2.1 BACKGROUND 231 6.2.2
MISSION CONCEPT 233 6.2.3 MISSION ORBIT ,. 234 6.2.4 SOLAR SAIL DESIGN ;
236 6.2.5 OTHER CONCEPTS 238 6.3 SOLAR POLAR SAIL MISSION 238 6.3.1
BACKGROUND 238 CONTENTS XIII 6.3.2 MISSION CONCEPT 239 6.3.3 MISSION
ORBIT 241 6.3.4 SOLAR SAIL DESIGN 241 6.4 MERCURY ORBITER ' 243 6.4.1
BACKGROUND 243 6.4.2 MISSION CONCEPT . . . - 243 6.4.3 MISSION ORBIT 244
6.4.4 SOLAR SAIL DESIGN 247 6.5 SAMPLE RETURN MISSIONS 247 6.5.1
BACKGROUND 247 6.5.2 MISSION CONCEPTS 249 6.6 POLAR OBSERVER 250 6.6.1
BACKGROUND 250 6.6.2 MISSION CONCEPT 251 6.6.3 MISSION ORBIT 254 6.7
MICRO-SOLAR SAIL CONSTELLATIONS 257 6.7.1 BACKGROUND 257 6.7.2 MISSION
CONCEPTS 257 6.8 NON-KEPLERIAN ORBITS 258 6.8.1 SUN-CENTRED
NON-KEPLERIAN ORBITS 258 6.8.2 PLANET-CENTRED NON-KEPLERIAN ORBITS 260
6.9 OUTER SOLAR SYSTEM MISSIONS 261 6.9.1 BACKGROUND 261 6.9.2 MISSION
ORBIT 262 6.9.3 OUTER PLANET MISSIONS 264 6.9.4 550 AU AND BEYOND 266
6.10 SUMMARY 267 6.11 FURTHER READING 268 SOLAR STORM MISSIONS 268 SOLAR
POLAR MISSIONS 268 MERCURY ORBITER MISSIONS 268 NON-KEPLERIAN ORBITS 269
OUTER SOLAR SYSTEM MISSIONS 269 MISCELLANEOUS 270 7 LASER-DRIVEN LIGHT
SAILS 271 7.1 INTRODUCTION 271 7.2 LIGHT SAIL PHYSICS 272 7.3 LIGHT SAIL
MECHANICS 274 7.3.1 LIGHT SAIL EFFICIENCY 274 7.3.2 CLASSICAL LIGHT SAIL
MECHANICS 275 7.3.3 RELATIVISTIC LIGHT SAIL MECHANICS 278 7.4 LIGHT SAIL
DESIGN 281 7.4.1 LIGHT SAIL FILMS 281 7.4.2 LASER SYSTEMS 283 XIV
CONTENTS 7.4.3 OPTICAL COLLIMATING SYSTEMS 284 7.4.4 IMPACT DAMAGE AND
INTERSTELLAR DRAG 285 7.5 MISSION APPLICATIONS _. 287 7.5.1 INTERSTELLAR
PRECURSOR 287 7.5.2 INTERSTELLAR PROBE 288 7.6 SUMMARY * 291 7.7 FURTHER
READING 292 INDEX 293 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | McInnes, Colin Robert 1968- |
| author_GND | (DE-588)120628791 |
| author_facet | McInnes, Colin Robert 1968- |
| author_role | aut |
| author_sort | McInnes, Colin Robert 1968- |
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| building | Verbundindex |
| bvnumber | BV021955029 |
| callnumber-first | T - Technology |
| callnumber-label | TL783 |
| callnumber-raw | TL783.9 |
| callnumber-search | TL783.9 |
| callnumber-sort | TL 3783.9 |
| callnumber-subject | TL - Motor Vehicles and Aeronautics |
| ctrlnum | (OCoLC)40397687 (DE-599)BVBBV021955029 |
| dewey-full | 629.47/54 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 629 - Other branches of engineering |
| dewey-raw | 629.47/54 |
| dewey-search | 629.47/54 |
| dewey-sort | 3629.47 254 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Verkehr / Transport |
| discipline_str_mv | Verkehr / Transport |
| format | Book |
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| id | DE-604.BV021955029 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:08:02Z |
| indexdate | 2024-07-09T20:48:11Z |
| institution | BVB |
| isbn | 185233102X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015170179 |
| oclc_num | 40397687 |
| open_access_boolean | |
| owner | DE-706 DE-83 |
| owner_facet | DE-706 DE-83 |
| physical | XXV, 296 S. Ill., graph. Darst. |
| publishDate | 1999 |
| publishDateSearch | 1999 |
| publishDateSort | 1999 |
| publisher | Springer |
| record_format | marc |
| series2 | Springer-Praxis series in space science and technology |
| spelling | McInnes, Colin Robert 1968- Verfasser (DE-588)120628791 aut Solar sailing technology, dynamics and mission applications London [u.a.] Springer 1999 XXV, 296 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer-Praxis series in space science and technology Literaturangaben Astronautique ram Dynamique Orbite Orbites ram Voile solaire Orbital dynamics Solar sails Sonnenwind (DE-588)4135572-6 gnd rswk-swf Sonnenwind (DE-588)4135572-6 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015170179&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | McInnes, Colin Robert 1968- Solar sailing technology, dynamics and mission applications Astronautique ram Dynamique Orbite Orbites ram Voile solaire Orbital dynamics Solar sails Sonnenwind (DE-588)4135572-6 gnd |
| subject_GND | (DE-588)4135572-6 |
| title | Solar sailing technology, dynamics and mission applications |
| title_auth | Solar sailing technology, dynamics and mission applications |
| title_exact_search | Solar sailing technology, dynamics and mission applications |
| title_exact_search_txtP | Solar sailing technology, dynamics and mission applications |
| title_full | Solar sailing technology, dynamics and mission applications |
| title_fullStr | Solar sailing technology, dynamics and mission applications |
| title_full_unstemmed | Solar sailing technology, dynamics and mission applications |
| title_short | Solar sailing |
| title_sort | solar sailing technology dynamics and mission applications |
| title_sub | technology, dynamics and mission applications |
| topic | Astronautique ram Dynamique Orbite Orbites ram Voile solaire Orbital dynamics Solar sails Sonnenwind (DE-588)4135572-6 gnd |
| topic_facet | Astronautique Dynamique Orbite Orbites Voile solaire Orbital dynamics Solar sails Sonnenwind |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015170179&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT mcinnescolinrobert solarsailingtechnologydynamicsandmissionapplications |