Inorganic scintillators for detector systems: physical principles and crystal engineering
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2006
|
| Schriftenreihe: | Particle acceleration and detection
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XII, 251 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9783540277668 3540277668 |
Internformat
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| 490 | 0 | |a Particle acceleration and detection | |
| 650 | 4 | |a Détecteurs à cristaux | |
| 650 | 4 | |a Scintillateurs inorganiques | |
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Datensatz im Suchindex
| _version_ | 1804137388373442561 |
|---|---|
| adam_text | PAUL LECOQ ALEXANDER ANNENKOV ALEXANDER GEKTIN MIKHAIL KORZHIK CHRISTIAN
PEDRINI INORGANIC SCINTIUATORS FOR DETECTOR SYSTEMS PHYSICAL PRINCIPLES
AND CRYSTAL ENGINEERING WITH 125 FIGURES SPRIN GER CONTENTS 1
SCINTILLATION AND INORGANIC SCINTILLATORS 1 1.1 THE PHENOMENON OF
SCINTILLATION 1 1.1.1 SCINTILLATION YIELD 6 1.1.2 KINETICS OF
SCINTILLATIONS 7 1.1.3 RADIOLUMINESCENCE SPECTRUM 7 1.1.4
PHOTOLUMINESCENCE SPECTRUM 7 1.2 SURVEY OF SCINTILLATION MECHANISMS 8
1.3 SCINTILLATION-RADIATING CENTERS 14 1.3.1 IONS OF THE IRON GROUP 14
1.3.2 IONS WITH S 2 OUTER SHELL (MERCURY-LIKE IONS) 16 1.3.3 ION OF
MOLYBDENUM 17 1.3.4 URANIUM ANIONIC COMPLEXES 17 1.3.5 RARE-EARTH IONS
17 1.4 CLASSIFICATION OF INORGANIC SCINTILLATION MATERIALS 21 1.4.1
CLASSIFICATION BASED ON THE USER S REQUIREMENTS 21 1.4.2 CLASSIFICATION
BASED ON SCINTILLATION MECHANISMS 21 1.4.3 CLASSIFICATION BASED ON
STRUCTURAL TYPES OF CRYSTALS . . 22 1.4.4 CLASSIFICATION BASED ON
SPECIFIC FEATURES OF MATERIALS . 22 1.4.5 COMBINED CLASSIFICATION 22
REFERENCES 27 2 HOW USER S REQUIREMENTS INFLUENCE THE DEVELOPMENT OF A
SCINTILLATOR 3 5 2.1 USER S REQUIREMENTS FOR HIGH ENERGY PHYSICS 38
2.1.1 INTRODUCTION 38 2.1.2 PHYSICS REQUIREMENTS FOR HIGH ENERGY PHYSICS
EXPERIMENTS 39 2.1.3 SCINTILLATOR REQUIREMENTS FOR HIGH-ENERGY PHYSICS
EXPERIMENTS 42 2.1.4 COST CONSIDERATIONS 44 2.1.5 CRYSTAL CALORIMETERS
IN THE WORLD 45 2.2 SPECTROMETRY OF LOW-ENERGY 7-QUANTA 45 2.2.1
NONLINEARITY OF SCINTILLATOR RESPONSE 45 2.2.2 SPECTROMETRIC PROPERTIES
OF YAP:CE CRYSTALS 49 2.3 USER S REQUIREMENTS FOR MEDICAL IMAGING 51 :-.
CONTENTS 2.3.1 INTRODUCTION AND HISTORICAL BACKGROUND 51 2.3.2 THE
DIFFERENT MEDICAL IMAGING MODALITIES 53 2.4 SAFETY SYSTEMS 66 2.5
ASTROPHYSICS 69 REFERENCES 76 SCINTILLATION MECHANISMS IN INORGANIC
SCINTILLATORS 81 3.1 INTRODUCTION: HOW TO ANSWER HIGH LIGHT YIELD, SHORT
DECAY TIME, AND GOOD ENERGY RESOLUTION 81 3.2 RELAXATION OF ELECTRONIC
EXCITATIONS 82 3.3 LIMITING FACTORS AT EACH STEP OF THE ENERGY
RELAXATION 86 3.3.1 CREATION OF ELECTRONIC EXCITATIONS 86 3.3.2 TRANSFER
TO LUMINESCENCE CENTERS 88 3.3.3 EMISSION OF LUMINESCENT CENTERS 93 3.4
CREATION AND QUENCHING OF RADIATING CENTERS 95 3.5 THERMAL QUENCHING 103
3.5.1 NONRADIATIVE RELAXATION TO THE GROUND STATE 103 3.5.2
THERMOSTIMULATED PHOTOIONIZATION AND TRAPPING EFFECTS 107 3.6 CHARGE
EXCHANGE PROCESSES PHOTOIONIZATION AND CHARGE TRANSFER 109 3.6.1 CHARGE
TRANSFER 110 3.6.2 PHOTOIONIZATION 113 3.6.3 IMPURITY-TRAPPED EXCITON
114 REFERENCES 117 INFLUENCE OF THE CRYSTAL STRUCTURE DEFECTS ON
SCINTILLATION PROPERTIES 123 4.1 SCINTILLATION MEDIA 124 4.2 DEFECTS IN
A CRYSTAL 126 4.2.1 INTERNAL POINT DEFECTS 127 4.2.2 IMPURITIES 127
4.2.3 LINEAR DEFECTS 128 4.3 CHANGE OF THE OPTICAL AND LUMINESCENCE
PROPERTIES BY CRYSTAL DEFECTS 132 4.3.1 SCINTILLATION LIGHT ABSORPTION
BY CRYSTAL DEFECTS 132 4.3.2 HARMFUL LUMINESCENCE AND AFTERGLOW 136
4.3.3 LOW BACKGROUND PROBLEM 137 4.4 RADIATION DAMAGE OF SCINTILLATORS
AND RADIATION HARDNESS IMPROVEMENT 138 4.4.1 RADIATION DEFECTS IN
DIELECTRICS 139 4.4.2 RADIATION STIMULATED LOSSES OF SCINTILLATOR
TRANSPARENCY 141 4.4.3 RADIATION-STIMULATED LOSSES SCINTILLATION
EFFICIENCY . . 149 CONTENTS XI 4.4.4 APPROACHES TO RADIATION HARDNESS
IMPROVEMENT 154 4.5 RECOVERY OF THE RADIATION-INDUCED ABSORPTION 161
REFERENCES 169 CRYSTAL ENGINEERING 175 5.1 PHASE DIAGRAMS 175 5.1.1
PHASE DIAGRAM OF CONTINUOUS SOLID SOLUTIONS 176 5.1.2 EUTECTIC AND
DISTECTIC PHASE DIAGRAM WITHOUT SOLID SOLUTIONS 177 5.1.3 EUTECTIC PHASE
DIAGRAM WITH AREAS OF SOLID SOLUTIONS 178 5.1.4 IMPURITY SOLUBILITY
DURING THE GROWTH 179 5.1.5 SCINTILLATION CRYSTAL PHASE DIAGRAMS 179 5.2
SINGLE CRYSTAL GROWTH 183 5.2.1 GENERAL CONSIDERATIONS ON THE
CRYSTALLIZATION PROCESS. 183 5.2.2 BASIC METHODS FOR SCINTILLATION
CRYSTAL GROWTH 184 5.2.3 BRIDGEMAN AND STOCKBARGER METHODS 185 5.2.4
CZOCHRALSKI AND KYROPOLOS GROWTH TECHNIQUES 187 5.2.5 MODERN TRENDS IN
SCINTILLATION CRYSTAL MANUFACTURING 190 5.2.6 STATE-OF-THE-ART FOR
CRYSTAL GROWTH 199 5.3 ACTIVATOR DISTRIBUTION IN A SINGLE CRYSTAL 201
5.4 RAW MATERIAL PREPARATION FOR SCINTILLATOR CRYSTAL GROWTH 204 5.4.1
RAW MATERIAL PURITY 204 5.4.2 RAW MATERIAL TREATMENT AND PREPARATION FOR
THE CRYSTAL GROWTH 204 5.4.3 SPECIAL ATMOSPHERE FOR THE CRYSTAL GROWTH
205 5.4.4 ADDITIONAL MELT PURIFICATION 206 5.4.5 NONSTOICHIOMETRY 206
5.5 LIGHT COLLECTION 206 5.5.1 SIMULATIONS 207 5.5.2 DETECTOR SHAPING
210 5.5.3 OPTICAL GUIDE 212 5.5.4 WAVELENGTH SHIFTERS 213 REFERENCES 215
TWO EXAMPLES OF RECENT CRYSTAL DEVELOPMENT 219 6.1 EXAMPLE OF LEAD
TUNGSTATE DEVELOPMENT FOR HIGH ENERGY PHYSICS EXPERIMENTS 219 6.1.1
INTRODUCTION 219 6.1.2 THE CONDITIONS OF SCINTILLATOR DEVELOPMENT FOR
HIGH ENERGY PHYSICS (HEP) 222 6.1.3 STRATEGY FOR THE CMS CALORIMETER 223
6.1.4 PROGRESS ON LEAD TUNGSTATE 225 6.1.5 OTHER EXPERIMENTS USING LEAD
TUNGSTATE 230 XII CONTENTS 6.2 DEVELOPMENT OF CE 3+ -DOPED
LUTETIUM-YTTRIUM ALUMINUM PEROVSKITE CRYSTALS FOR MEDICAL IMAGING
APPLICATIONS 231 6.2.1 INTRODUCTION 231 6.2.2 (LUI_ X -Y 2: )A103:CE
PRODUCTION TECHNOLOGY 233 6.2.3 (H II- X -Y X )A10 3 :CE SCINTILLATION
PROPERTIES 235 REFERENCES 242 CONCLUSION 245 GLOSSARY 247 TNDFIX 249
|
| adam_txt |
PAUL LECOQ ALEXANDER ANNENKOV ALEXANDER GEKTIN MIKHAIL KORZHIK CHRISTIAN
PEDRINI INORGANIC SCINTIUATORS FOR DETECTOR SYSTEMS PHYSICAL PRINCIPLES
AND CRYSTAL ENGINEERING WITH 125 FIGURES SPRIN GER CONTENTS 1
SCINTILLATION AND INORGANIC SCINTILLATORS 1 1.1 THE PHENOMENON OF
SCINTILLATION 1 1.1.1 SCINTILLATION YIELD 6 1.1.2 KINETICS OF
SCINTILLATIONS 7 1.1.3 RADIOLUMINESCENCE SPECTRUM 7 1.1.4
PHOTOLUMINESCENCE SPECTRUM 7 1.2 SURVEY OF SCINTILLATION MECHANISMS 8
1.3 SCINTILLATION-RADIATING CENTERS 14 1.3.1 IONS OF THE IRON GROUP 14
1.3.2 IONS WITH S 2 OUTER SHELL (MERCURY-LIKE IONS) 16 1.3.3 ION OF
MOLYBDENUM 17 1.3.4 URANIUM ANIONIC COMPLEXES 17 1.3.5 RARE-EARTH IONS
17 1.4 CLASSIFICATION OF INORGANIC SCINTILLATION MATERIALS 21 1.4.1
CLASSIFICATION BASED ON THE USER'S REQUIREMENTS 21 1.4.2 CLASSIFICATION
BASED ON SCINTILLATION MECHANISMS 21 1.4.3 CLASSIFICATION BASED ON
STRUCTURAL TYPES OF CRYSTALS . . 22 1.4.4 CLASSIFICATION BASED ON
SPECIFIC FEATURES OF MATERIALS . 22 1.4.5 COMBINED CLASSIFICATION 22
REFERENCES 27 2 HOW USER'S REQUIREMENTS INFLUENCE THE DEVELOPMENT OF A
SCINTILLATOR 3 5 2.1 USER'S REQUIREMENTS FOR HIGH ENERGY PHYSICS 38
2.1.1 INTRODUCTION 38 2.1.2 PHYSICS REQUIREMENTS FOR HIGH ENERGY PHYSICS
EXPERIMENTS 39 2.1.3 SCINTILLATOR REQUIREMENTS FOR HIGH-ENERGY PHYSICS
EXPERIMENTS 42 2.1.4 COST CONSIDERATIONS 44 2.1.5 CRYSTAL CALORIMETERS
IN THE WORLD 45 2.2 SPECTROMETRY OF LOW-ENERGY 7-QUANTA 45 2.2.1
NONLINEARITY OF SCINTILLATOR RESPONSE 45 2.2.2 SPECTROMETRIC PROPERTIES
OF YAP:CE CRYSTALS 49 2.3 USER'S REQUIREMENTS FOR MEDICAL IMAGING 51 :-.
CONTENTS 2.3.1 INTRODUCTION AND HISTORICAL BACKGROUND 51 2.3.2 THE
DIFFERENT MEDICAL IMAGING MODALITIES 53 2.4 SAFETY SYSTEMS 66 2.5
ASTROPHYSICS 69 REFERENCES 76 SCINTILLATION MECHANISMS IN INORGANIC
SCINTILLATORS 81 3.1 INTRODUCTION: HOW TO ANSWER HIGH LIGHT YIELD, SHORT
DECAY TIME, AND GOOD ENERGY RESOLUTION 81 3.2 RELAXATION OF ELECTRONIC
EXCITATIONS 82 3.3 LIMITING FACTORS AT EACH STEP OF THE ENERGY
RELAXATION 86 3.3.1 CREATION OF ELECTRONIC EXCITATIONS 86 3.3.2 TRANSFER
TO LUMINESCENCE CENTERS 88 3.3.3 EMISSION OF LUMINESCENT CENTERS 93 3.4
CREATION AND QUENCHING OF RADIATING CENTERS 95 3.5 THERMAL QUENCHING 103
3.5.1 NONRADIATIVE RELAXATION TO THE GROUND STATE 103 3.5.2
THERMOSTIMULATED PHOTOIONIZATION AND TRAPPING EFFECTS 107 3.6 CHARGE
EXCHANGE PROCESSES PHOTOIONIZATION AND CHARGE TRANSFER 109 3.6.1 CHARGE
TRANSFER 110 3.6.2 PHOTOIONIZATION 113 3.6.3 IMPURITY-TRAPPED EXCITON
114 REFERENCES 117 INFLUENCE OF THE CRYSTAL STRUCTURE DEFECTS ON
SCINTILLATION PROPERTIES 123 4.1 SCINTILLATION MEDIA 124 4.2 DEFECTS IN
A CRYSTAL 126 4.2.1 INTERNAL POINT DEFECTS 127 4.2.2 IMPURITIES 127
4.2.3 LINEAR DEFECTS 128 4.3 CHANGE OF THE OPTICAL AND LUMINESCENCE
PROPERTIES BY CRYSTAL DEFECTS 132 4.3.1 SCINTILLATION LIGHT ABSORPTION
BY CRYSTAL DEFECTS 132 4.3.2 HARMFUL LUMINESCENCE AND AFTERGLOW 136
4.3.3 LOW BACKGROUND PROBLEM 137 4.4 RADIATION DAMAGE OF SCINTILLATORS
AND RADIATION HARDNESS IMPROVEMENT 138 4.4.1 RADIATION DEFECTS IN
DIELECTRICS 139 4.4.2 RADIATION STIMULATED LOSSES OF SCINTILLATOR
TRANSPARENCY 141 4.4.3 RADIATION-STIMULATED LOSSES SCINTILLATION
EFFICIENCY . . 149 CONTENTS XI 4.4.4 APPROACHES TO RADIATION HARDNESS
IMPROVEMENT 154 4.5 RECOVERY OF THE RADIATION-INDUCED ABSORPTION 161
REFERENCES 169 CRYSTAL ENGINEERING 175 5.1 PHASE DIAGRAMS 175 5.1.1
PHASE DIAGRAM OF CONTINUOUS SOLID SOLUTIONS 176 5.1.2 EUTECTIC AND
DISTECTIC PHASE DIAGRAM WITHOUT SOLID SOLUTIONS 177 5.1.3 EUTECTIC PHASE
DIAGRAM WITH AREAS OF SOLID SOLUTIONS 178 5.1.4 IMPURITY SOLUBILITY
DURING THE GROWTH 179 5.1.5 SCINTILLATION CRYSTAL PHASE DIAGRAMS 179 5.2
SINGLE CRYSTAL GROWTH 183 5.2.1 GENERAL CONSIDERATIONS ON THE
CRYSTALLIZATION PROCESS. 183 5.2.2 BASIC METHODS FOR SCINTILLATION
CRYSTAL GROWTH 184 5.2.3 BRIDGEMAN AND STOCKBARGER METHODS 185 5.2.4
CZOCHRALSKI AND KYROPOLOS GROWTH TECHNIQUES 187 5.2.5 MODERN TRENDS IN
SCINTILLATION CRYSTAL MANUFACTURING 190 5.2.6 STATE-OF-THE-ART FOR
CRYSTAL GROWTH 199 5.3 ACTIVATOR DISTRIBUTION IN A SINGLE CRYSTAL 201
5.4 RAW MATERIAL PREPARATION FOR SCINTILLATOR CRYSTAL GROWTH 204 5.4.1
RAW MATERIAL PURITY 204 5.4.2 RAW MATERIAL TREATMENT AND PREPARATION FOR
THE CRYSTAL GROWTH 204 5.4.3 SPECIAL ATMOSPHERE FOR THE CRYSTAL GROWTH
205 5.4.4 ADDITIONAL MELT PURIFICATION 206 5.4.5 NONSTOICHIOMETRY 206
5.5 LIGHT COLLECTION 206 5.5.1 SIMULATIONS 207 5.5.2 DETECTOR SHAPING
210 5.5.3 OPTICAL GUIDE 212 5.5.4 WAVELENGTH SHIFTERS 213 REFERENCES 215
TWO EXAMPLES OF RECENT CRYSTAL DEVELOPMENT 219 6.1 EXAMPLE OF LEAD
TUNGSTATE DEVELOPMENT FOR HIGH ENERGY PHYSICS EXPERIMENTS 219 6.1.1
INTRODUCTION 219 6.1.2 THE CONDITIONS OF SCINTILLATOR DEVELOPMENT FOR
HIGH ENERGY PHYSICS (HEP) 222 6.1.3 STRATEGY FOR THE CMS CALORIMETER 223
6.1.4 PROGRESS ON LEAD TUNGSTATE 225 6.1.5 OTHER EXPERIMENTS USING LEAD
TUNGSTATE 230 XII CONTENTS 6.2 DEVELOPMENT OF CE 3+ -DOPED
LUTETIUM-YTTRIUM ALUMINUM PEROVSKITE CRYSTALS FOR MEDICAL IMAGING
APPLICATIONS 231 6.2.1 INTRODUCTION 231 6.2.2 (LUI_ X -Y 2: )A103:CE
PRODUCTION TECHNOLOGY 233 6.2.3 (H\II- X -Y X )A10 3 :CE SCINTILLATION
PROPERTIES 235 REFERENCES 242 CONCLUSION 245 GLOSSARY 247 TNDFIX 249 |
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| id | DE-604.BV023118463 |
| illustrated | Illustrated |
| index_date | 2024-07-02T19:50:45Z |
| indexdate | 2024-07-09T21:11:27Z |
| institution | BVB |
| isbn | 9783540277668 3540277668 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016320957 |
| oclc_num | 61260709 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-11 DE-29T DE-706 |
| owner_facet | DE-91G DE-BY-TUM DE-11 DE-29T DE-706 |
| physical | XII, 251 S. Ill., graph. Darst. 24 cm |
| publishDate | 2006 |
| publishDateSearch | 2006 |
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| publisher | Springer |
| record_format | marc |
| series2 | Particle acceleration and detection |
| spelling | Inorganic scintillators for detector systems physical principles and crystal engineering Paul Lecoq ... Berlin [u.a.] Springer 2006 XII, 251 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Particle acceleration and detection Détecteurs à cristaux Scintillateurs inorganiques Crystal detectors Inorganic scintillators Szintillator (DE-588)4184292-3 gnd rswk-swf Anorganischer Festkörper (DE-588)4276504-3 gnd rswk-swf Szintillator (DE-588)4184292-3 s Anorganischer Festkörper (DE-588)4276504-3 s DE-604 Lecoq, Paul Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016320957&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Inorganic scintillators for detector systems physical principles and crystal engineering Détecteurs à cristaux Scintillateurs inorganiques Crystal detectors Inorganic scintillators Szintillator (DE-588)4184292-3 gnd Anorganischer Festkörper (DE-588)4276504-3 gnd |
| subject_GND | (DE-588)4184292-3 (DE-588)4276504-3 |
| title | Inorganic scintillators for detector systems physical principles and crystal engineering |
| title_auth | Inorganic scintillators for detector systems physical principles and crystal engineering |
| title_exact_search | Inorganic scintillators for detector systems physical principles and crystal engineering |
| title_exact_search_txtP | Inorganic scintillators for detector systems physical principles and crystal engineering |
| title_full | Inorganic scintillators for detector systems physical principles and crystal engineering Paul Lecoq ... |
| title_fullStr | Inorganic scintillators for detector systems physical principles and crystal engineering Paul Lecoq ... |
| title_full_unstemmed | Inorganic scintillators for detector systems physical principles and crystal engineering Paul Lecoq ... |
| title_short | Inorganic scintillators for detector systems |
| title_sort | inorganic scintillators for detector systems physical principles and crystal engineering |
| title_sub | physical principles and crystal engineering |
| topic | Détecteurs à cristaux Scintillateurs inorganiques Crystal detectors Inorganic scintillators Szintillator (DE-588)4184292-3 gnd Anorganischer Festkörper (DE-588)4276504-3 gnd |
| topic_facet | Détecteurs à cristaux Scintillateurs inorganiques Crystal detectors Inorganic scintillators Szintillator Anorganischer Festkörper |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016320957&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT lecoqpaul inorganicscintillatorsfordetectorsystemsphysicalprinciplesandcrystalengineering |