Evolution of silicon sensor technology in particle physics

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Bibliographische Detailangaben
1. Verfasser:	Hartmann, Frank Mattias (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cham Springer [2017]
Ausgabe:	Second edition
Schriftenreihe:	Springer tracts in modern physics volume 275
Schlagworte:	Geschichte Hochenergiephysik Siliciumdetektor DELPHI Microvertex Detector Detector Signal Evaluation Detector Signal Processing Detectors for the SLHC and the ILC Microvertex Detector Monolithic Active Pixel Detection Radiation Damage Sensors Silicon Sensor Technology Silicon Strip Pixels Silicon Tracking Devices
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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1 BASIC PRINCIPLES OF A SILICON DETECTOR .......................... 1 1.1 FUNDAMENTAL SILICON PROPERTIES ........................... 1 1.1.1 JUST SILICON AND SOME IMPURITIES .................. 3 1.1.2 THE PN-JUNCTION ................................ 8 1.1.3 SIO2 ........................................ 17 1.1.4 SUMMARY OF SILICON PROPERTIES .................... 20 1.2 INGREDIENTS TO USE SILICON AS DETECTOR BASIS ................. 21 1.3 WORKING PRINCIPLE OF A SILICON TRACKING DEVICE ............. 23 1.3.1 CHARGE COLLECTION - AN ILLUSTRATION................. 25 1.3.2 SIGNAL VIA INDUCTION - SHOCKLEY-RAMO THEOREM ...... 27 1.3.3 SIGNAL CHARGE AND PARTICLE POSITION ................. 31 1.3.4 N-SIDE ISOLATION OF AN N-IN-N OR N-IN-P SENSORS ........ 35 1.4 SINGLE-SIDED - DOUBLE-SIDED, DOUBLE METAL ................ 38 1.5 NOISE CONTRIBUTIONS ................................... 41 1.6 SENSOR PARAMETERS ..................................... 44 1.6.1 GLOBAL PARAMETERS .............................. 45 1.6.2 BIAS-, GUARD- AND OUTSIDE PROTECTION RINGS .......... 47 1.6.3 DESIGN OF STRIP PARAMETERS ....................... 50 1.7 PRACTICAL ASPECTS OF HANDLING AND TESTING SILICON STRIP DEVICES ............................................. 60 1.7.1 WHAT IS THE STANDARD/EXHAUSTIVE SET OF QUALITY ASSURANCE TESTS? ............................... 61 1.8 R&D METHODS AND TOOLS: DLTS, TSC, TCT, EDGE TCT, TPA-TCT, SIMS AND SIMULATION ......................... 64 1.8.1 DEEP LEVEL TRANSIENT SPECTROSCOPY - DLTS.......... 65 1.8.2 THERMALLY STIMULATED CURRENT - TSC ............... 69 1.8.3 TRANSIENT CURRENT TECHNIQUE - TCT ................ 71 1.8.4 SECONDARY ION MASS SPECTROMETRY - SIMS ........... 79 1.8.5 SIMULATION .................................... 80 IX $IBIIOTHEK DEUTSCHES MUSEUM HLTINCHE A X CONTENTS 1.9 PRODUCTION OF SILICON SENSORS ............................ 81 1.9.1 FROM PURE SAND TO DETECTOR GRADE SILICON ........... 82 1.9.2 PROCESSING .................................... 84 1.9.3 THINNING ..................................... 93 1.10 READOUT ELECTRONICS - STRIP ASICS ........................ 95 1.11 READOUT ELECTRONICS - PIXEL READOUT CHIPS - ROCS .......... 102 1.11.1 CHIP DEVELOPMENTS FOR THE FUTURE .................. 106 1.12 OTHER SILICON DETECTOR TYPES ............................ 106 1.12.1 HYBRID PIXELS - AN ALTERNATIVE WITH A HIGH NUMBER OF CHANNELS ............................ 107 1.12.2 CMOS DETECTORS - MONOLITHIC ACTIVE PIXELS - MAPS ................................ 107 1.12.3 SILICON ON INSULATOR DETECTOR - SOI ................ 110 1.12.4 HV - CMOS/HR - CMOS ....................... 112 1.12.5 SILICON DRIFT DETECTOR ........................... 116 1.12.6 DEPLETED FIELD EFFECT TRANSISTORS DEPFET DETECTORS ... 117 1.12.7 3D SILICON DETECTORS ............................ 118 1.12.8 LOW GAIN AVALANCHE DETECTORS - LGAD ............ 123 1.12.9 TECHNOLOGY ADVANTAGE - DISADVANTAGE - USAGE....... 127 1.13 SOME LAST WORDS ABOUT THE DESIGN OF DETECTORS FOR HIGH ENERGY PHYSICS ....................................... 127 1.14 SOME ALWAYS UNEXPECTED PROBLEMS ALONG THE WAY .......... 127 2 RADIATION DAMAGE IN SILICON DETECTOR DEVICES .................. 135 2.1 BULK DAMAGE ........................................ 135 2.1.1 DAMAGE BY PARTICLES ............................ 136 2.1.2 ANNEALING - DIFFUSION OF DEFECTS .................. 143 2.2 DEFECT ANALYSIS, NEW MATERIALS AND DETECTOR ENGINEERING...... 148 2.2.1 STUDY OF MICROSCOPIC DEFECTS AND THEIR IMPACT ON MACROSCOPIC PARAMETERS ....................... 150 2.2.2 DIFFERENT MATERIALS AND DIFFERENT RADIATION TYPES - NIEL VIOLATION ......................... 153 2.2.3 DOUBLE JUNCTION ............................... 156 2.2.4 SENSORS AFTER VERY HIGH RADIATION LEVELS ........... 160 2.2.5 CHARGE AMPLIFICATION ............................ 162 2.3 SURFACE DAMAGE ...................................... 164 3 FIRST STEPS WITH SILICON SENSORS: NA11 (PROOF OF PRINCIPLE)........ 167 3.1 FROM SEMICONDUCTOR DETECTORS IN THE 1950S AS SPECTROSCOPES TO FIRST TRACKING DEVICES IN THE 1980S ..................... 167 3.2 DEVELOPMENT OF THE FIRST SILICON STRIP DETECTOR FOR HIGH ENERGY PHYSICS NAI I AND NA32 .......................... 168 3.3 DISTINGUISH C QUARKS FROM OTHERS ........................ 171 CONTENTS XI 4 THE DELPHI MICROVERTEX DETECTOR AT LEP .................... 173 4.1 DESIGN AND STRATEGIES .................................. 173 4.2 THE DELPHI MICROVERTEX DETECTOR 1996/1997 ............... 177 4.3 THE SILICON SENSORS OF THE DELPHI MICROVERTEX DETECTOR MVD .............................................. 183 4.4 IMPLEMENTATION OF SILICON LABS IN UNIVERSITIES TO BUILD A LARGE DEVICE ............................................. 188 4.5 PHYSICS WITH THE DELPHI MICROVERTEX DETECTOR .............. 189 5. CDF: THE WORLD S LARGEST SILICON DETECTOR IN THE 20TH CENTURY; 6 7 THE FIRST SILICON DETECTOR AT A HADRON COLLIDER ................. 195 5.1 HISTORICAL EVOLUTION OF THE CDF VERTEX DETECTOR ............. 195 5.2 DESIGN, HOW TO COVER AIL 2( WITHOUT ENDCAP .............. 200 5.2.1 TRACKING SYSTEM ............................... 200 5.3 SIX INCH, A NEW TECHNOLOGY STEP FOR LARGE SILICON APPLICATIONS ......................................... 210 5.4 LESSONS LEARNED FROM OPERATION ......................... 214 5.5 THE T DISCOVERY, CP VIOLATION IN THE B QUARK SECTOR.......... 216 CMS: INCREASING SIZE BY 2 ORDERS OF MAGNITUDE ................ 219 6.1 THE CMS PIXEL DETECTOR - PHASE 0- 2008 - 2016 ........... 222 6.2 THE PIXEL PHASE I UPGRADE - INSTALLED FEBRUARY/MARCH 2017.... 225 6.3 THE CMS SILICON STRIP TRACKER - SST ..................... 231 6.4 DESIGN, HOW TO SURVIVE 10 YEARS IN THE RADIATION ENVIRONMENT OF LHC .................................. 239 6.4.1 ELECTRONICS - QUARTER MICRON TECHNOLOGY ............ 239 6.4.2 SILICON SENSORS ................................ 240 6.5 CONSTRUCTION ISSUES FOR LARGE DETECTOR SYSTEMS WITH INDUSTRY INVOLVEMENT ......................................... 249 6.5.1 QUALITY ASSURANCE AND PROBLEMS DURING THE PROCESS ... 250 6.5.2 ASSEMBLY ..................................... 253 6.6 TRACKER OPERATION AND PERFORMANCE ....................... 257 6.6.1 LESSONS LEARNED FROM OPERATION AND MAINTENANCE ..... 257 6.6.2 SIGNAL PROCESSING, SOME KEY FIGURES AND TRACKING WITH THE CMS TRACKER ........................... 260 6.7 PHYSICS WITH THE CMS TRACKER AND HIGH-LEVEL TRIGGER ........ 282 THE DESIGN OF THE CMS UPGRADE TRACKER AND THE CMS HIGH GRANULARITY FORWARD CALORIMETER EQUIPPED WITH SILICON SENSORS FOR THE HL-LHC ................................... 291 7.1 THE CMS TRACKER UPGRADE FOR THE HL-LHC - PHASE II........ 293 7.1.1 SENSORS FOR THE HL-LHC CMS TRACKER .............. 307 7.2 THE CMS ENDCAP CALORIMETER UPGRADE FOR THE HL-LHC....... 319 XII CONTENTS 8 CONTINUING THE STORY: DETECTORS FOR A FUTURE LINEAR COLLIDER ILC OR A FUTURE CIRCULAR COLLIDER FCC ........................... 331 8.1 A SILICON TRACKER FOR THE INTERNATIONAL LINEAR COLLIDER - ILC ... 333 8.2 THE NEXT BIG FUTURE CIRCULAR COLLIDER - FCC ............... 337 9 CONCLUSION AND OUTLOOK .................................... 341 APPENDIX A: GLOSSARY ......................................... 343 APPENDIX B: SOME ADDITIONAL FIGURES ........................... 349 REFERENCES .................................................. 357 INDEX ...................................................... 371
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spellingShingle	Hartmann, Frank Mattias Evolution of silicon sensor technology in particle physics Springer tracts in modern physics Hochenergiephysik (DE-588)4127286-9 gnd Siliciumdetektor (DE-588)4255772-0 gnd
subject_GND	(DE-588)4127286-9 (DE-588)4255772-0
title	Evolution of silicon sensor technology in particle physics
title_auth	Evolution of silicon sensor technology in particle physics
title_exact_search	Evolution of silicon sensor technology in particle physics
title_full	Evolution of silicon sensor technology in particle physics Frank Hartmann
title_fullStr	Evolution of silicon sensor technology in particle physics Frank Hartmann
title_full_unstemmed	Evolution of silicon sensor technology in particle physics Frank Hartmann
title_short	Evolution of silicon sensor technology in particle physics
title_sort	evolution of silicon sensor technology in particle physics
topic	Hochenergiephysik (DE-588)4127286-9 gnd Siliciumdetektor (DE-588)4255772-0 gnd
topic_facet	Hochenergiephysik Siliciumdetektor
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Evolution of silicon sensor technology in particle physics

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