Single-photon imaging
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2011
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| Ausgabe: | 1. ed. |
| Schriftenreihe: | Springer series in optical sciences
160 |
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| 245 | 1 | 0 | |a Single-photon imaging |c Peter Seitz (eds.)... |
| 250 | |a 1. ed. | ||
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2011 | |
| 300 | |a XVIII, 351 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Springer series in optical sciences |v 160 | |
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| 650 | 0 | 7 | |a Festkörperbildsensor |0 (DE-588)4136079-5 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Photonenzähler |0 (DE-588)4482977-2 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Photonendetektor |0 (DE-588)4466001-7 |D s |
| 689 | 0 | 1 | |a Festkörperbildsensor |0 (DE-588)4136079-5 |D s |
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| adam_text | IMAGE 1
CONTENTS
1 FUNDAMENTALS OF NOISE IN OPTOELECTRONICS 1
PETER SEITZ 1.1 INTRODUCTION 1
1.2 QUANTIZATION OF ELECTROMAGNETIC RADIATION, ELECTRICAL CHARGE, AND
ENERGY STATES IN BOUND SYSTEMS 2
1.3 BASIC PROPERTIES OF THE POISSON DISTRIBUTION 3
1.4 INTERACTION OF RADIATION AND MATTER 5
1.5 NOISE PROPERTIES OF LIGHT SOURCES 6
1.5.1 COHERENT LIGHT (SINGLE-MODE LASERS) 6
1.5.2 THERMAL (INCANDESCENT) LIGHT SOURCES 6
1.5.3 PARTIALLY COHERENT LIGHT (DISCHARGE LAMPS) 7
1.5.4 LIGHT EMITTING DIODES 8
1.6 THE MEANING OF SINGLE-PHOTON IMAGING 9
1.7 ENERGY BAND MODEL OF SOLID STATE MATTER 11
1.8 DETECTION OF ELECTROMAGNETIC RADIATION WITH SEMICONDUCTORS .... 12
1.8.1 QUANTUM EFFICIENCY AND BAND STRUCTURE 12
1.8.2 THERMAL EQUILIBRIUM AND NONEQUILIBRIUM CARRIER CONCENTRATIONS 13
1.8.3 DARK CURRENT 14
1.8.4 AVALANCHE EFFECT AND EXCESS NOISE FACTOR 15
1.9 ELECTRONIC DETECTION OF CHARGE 16
1.9.1 BASIC COMPONENTS OF ELECTRONICS AND THEIR NOISE PROPERTIES 17
1.9.2 BASIC CIRCUITS FOR ELECTRONIC CHARGE DETECTION 20 1.9.3
CONCLUSIONS FOR SINGLE-ELECTRON CHARGE DETECTION 21 1.10 SUMMARY:
PHYSICAL LIMITS OF THE DETECTION OF LIGHT 23 1.10.1 SENSITIVE WAVELENGTH
RANGE 23
1.10.2 DARK CURRENT AND QUANTUM EFFICIENCY 24
1.10.3 ELECTRONIC CHARGE DETECTION 24
REFERENCES 25
IX
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/100931050X
DIGITALISIERT DURCH
IMAGE 2
X CONTENTS
2 IMAGE SENSOR TECHNOLOGY 27
R. DANIEL MCGRATH 2.1 PROGRAM AND A BRIEF HISTORY OF SOLID-STATE IMAGE
SENSORS 27 2.2 ANATOMY OF AN IMAGE SENSOR 28
2.3 OPERATION 33
2.4 IMAGE SENSOR DEVICES 35
2.5 IMAGE SENSOR PROCESS TECHNOLOGY 39
2.6 OUTLOOK FOR A SINGLE PHOTON PROCESS TECHNOLOGY 46
REFERENCES 47
3 HYBRID AVALANCHE PHOTODIODE ARRAY IMAGING 49
HIROAKI AIHARA 3.1 INTRODUCTION 49
3.2 PRINCIPLE OF HYBRID APD OPERATION 50
3.3 SINGLE-PIXEL LARGE FORMAT HYBRID APD 51
3.3.1 DEVICE DESCRIPTION 51
3.3.2 PERFORMANCE 53
3.3.3 APPLICATION 55
3.4 MULTIPIXEL HYBRID APD ARRAY 56
3.4.1 DEVICE DESCRIPTION 56
3.4.2 PERFORMANCE 60
3.4.3 APPLICATION 61
3.5 CONCLUSIONS AND REMAINING ISSUES 62
REFERENCES 62
4 ELECTRON BOMBARDED SEMICONDUCTOR IMAGE SENSORS 63
VERLE AEBI AND KENNETH COSTELLO 4.1 INTRODUCTION 63
4.2 ELECTRON BOMBARDED SEMICONDUCTOR GAIN PROCESS 65
4.3 HYBRID PHOTOMULTIPLIER EBS IMAGE SENSORS 66
4.3.1 HYBRID PHOTOMULTIPLIER GAIN AND NOISE ANALYSIS 66 4.3.2 HYBRID
PHOTOMULTIPLIER TIME RESPONSE 67
4.3.3 HYBRID PHOTOMULTIPLIER IMAGERS 67
4.4 EBCCD AND EBCMOS EBS IMAGE SENSORS 69
REFERENCES 71
5 SINGLE-PHOTON IMAGING USING ELECTRON MULTIPLICATION IN VACUUM ... 73
GERT NUETZEL 5.1 INTRODUCTION 73
5.2 THE PHOTOCATHODE 75
5.2.1 THE WORKING PRINCIPLE OF PHOTOCATHODES 75
5.2.2 MULTIALKALI PHOTOCATHODES 77
5.2.3 III-V PHOTOCATHODES 79
5.3 IMAGE INTENSIFIES 80
5.3.1 WORKING PRINCIPLE 80
5.3.2 APPLICATIONS 82
IMAGE 3
CONTENTS XI
5.3.3 THE COMPONENTS OF AN IMAGE INTENSIFIER 83
5.3.4 PERFORMANCE CHARACTERISTICS 87
5.3.5 SPECIAL IMAGE INTENSIFIES 94
5.4 PHOTOMULTIPLIER TUBE 95
5.4.1 WORKING PRINCIPLE 96
5.4.2 APPLICATIONS 96
5.4.3 THE COMPONENTS OF A PMT 97
5.4.4 PERFORMANCE CHARACTERISTICS 99
5.5 CONCLUSIONS AND OUTLOOK 102
REFERENCES 102
6 ELECTRON-MULTIPLYING CHARGE COUPLED DEVICES - EMCCDS 103 MARK STANFORD
ROBBINS 6.1 INTRODUCTION 103
6.2 HARNESSING IMPACT IONISATION FOR ULTRA SENSITIVE CCD IMAGING 104
6.3 THE ELECTRON MULTIPLYING CCD CONCEPT 104
6.3.1 OUTPUT AMPLIFIER NOISE 104
6.3.2 THE USE OF MULTIPLICATION GAIN 106
6.3.3 NOISE AND SIGNAL-TO-NOISE RATIO 109
6.3.4 OUTPUT SIGNAL DISTRIBUTIONS 110
6.4 PHOTON COUNTING WITH THE EMCCD 112
6.5 BACKGROUND SIGNAL GENERATION 114
6.5.1 DARKSIGNAL 114
6.5.2 STATISTICS OF DARK SIGNAL GENERATION 117
6.5.3 SPURIOUS CHARGE GENERATION 117
6.6 IMPROVING THE EFFICIENCY OF SIGNAL GENERATION 118
6.7 CONCLUDING COMMENTS 119
REFERENCES 120
7 MONOLITHIC SINGLE-PHOTON AVALANCHE DIODES: SPADS 123 EDOARDO CHARBON
AND MATTHEW W. FISHBURN 7.1 A BRIEF HISTORICAL PERSPECTIVE 123
7.2 FUNDAMENTAL MECHANISMS 124
7.2.1 SPAD STRUCTURE AND OPERATION 124
7.2.2 IDLE STATE AND AVALANCHE BUILDUP 126
7.2.3 QUENCH, SPREAD, AND RECHARGE 129
7.2.4 EXAMPLE WAVEFORMS 131
7.2.5 PULSE-SHAPING 134
7.2.6 UNCORRELATED NOISE: DARK COUNTS 135
7.2.7 CORRELATED NOISE: AFTERPULSING AND OTHER TIME UNCERTAINTIES 136
7.2.8 SENSITIVITY: PHOTON DETECTION PROBABILITY 138
7.2.9 WAVELENGTH DISCRIMINATION 141
7.3 FABRICATING MONOLITHIC SPADS 141
7.3.1 VERTICAL VERSUS PLANAR SPADS 141
IMAGE 4
CONTENTS
7.3.2 IMPLEMENTATION IN PLANAR PROCESSES 142
7.3.3 SPAD NONIDEALITIES 146
7.3.4 SPAD ARRAY NONIDEALITIES 146
7.4 ARCHITECTING SPAD ARRAYS 148
7.4.1 BASIC ARCHITECTURES 148
7.4.2 ON-CHIP ARCHITECTURE 149
7.4.3 IN-COLUMN ARCHITECTURE 150
7.4.4 IN-PIXEL ARCHITECTURE 151
7.5 TRENDS IN MONOLITHIC ARRAY DESIGNS 153
7.6 CONCLUSIONS 154
REFERENCES 154
SINGLE PHOTON CMOS IMAGING THROUGH NOISE MINIMIZATION 159 BOYD FOWLER
8.1 INTRODUCTION 159
8.2 THEORY 161
8.2.1 QEANDMTF 161
8.2.2 PHOTO-CARRIER DETECTION PROBABILITY 167
8.2.3 ADDITIVE TEMPORAL NOISE SYSTEMS 168
8.2.4 UNCORRELATED TEMPORAL NOISE SOURCES 170
8.2.5 CORRELATED TEMPORAL NOISE SOURCES 174
8.3 AMPLIFICATION AND BANDWIDTH CONTROL 175
8.3.1 AMPLIFICATION 175
8.3.2 BANDWIDTH CONTROL 179
8.4 ARCHITECTURES 181
8.4.1 4T PIXEL WITH PINNED PHOTODIODE COLUMN LEVEL AMPLIFICATION AND CDS
181
8.4.2 4T CTIA PIXEL WITH PINNED PHOTO DIODE COLUMN LEVEL AMPLIFICATION
AND CDS 184
8.4.3 ARCHITECTURE COMPARISON 188
8.5 LOW-NOISE CMOS IMAGE SENSOR OPTIMIZATION 189
8.5.1 ELECTRICAL 189
8.5.2 OPTICAL 192
8.6 CONCLUSION 193
REFERENCES 194
ARCHITECTURES FOR LOW-NOISE CMOS ELECTRONIC IMAGING 197 SHOJI KAWAHITO
9.1 INTRODUCTION 197
9.2 SIGNAL READOUT ARCHITECTURES 198
9.3 CORRELATED SAMPLINGS AND THEIR NOISE RESPONSES 201
9.3.1 CORRELATED DOUBLE SAMPLING AND CORRELATED MULTIPLE SAMPLING 201
9.3.2 RESPONSE OF CDS AND CMS TO THERMAL AND 1/F NOISES 203
IMAGE 5
CONTENTS XIUE
9.4 NOISE IN ACTIVE-PIXEL CMOS IMAGE SENSORS USING COLUMN CMS CIRCUITS
207
9.5 POSSIBILITY OF SINGLE PHOTON DETECTION 211
9.5.1 SINGLE PHOTON DETECTION USING QUANTIZATION 211 9.5.2 CONDITION FOR
SINGLE PHOTON DETECTION 214
REFERENCES 216
10 LOW-NOISE ELECTRONIC IMAGING WITH DOUBLE-GATE FETS AND
CHARGE-MODULATION DEVICES 219
YOSHIYUKI MATSUNAGA 10.1 INTRODUCTION 219
10.2 DOUBLE-GATE FET CHARGE DETECTOR 220
10.2.1 FLOATING WELL TYPE 220
10.2.2 FLOATING SURFACE TYPE 226
10.3 CCD IMAGE SENSOR WITH DOUBLE-GATE FET CHARGE DETECTOR 233 10.3.1
SENSOR CONSTRUCTION 233
10.3.2 FEEDBACK CHARGE DETECTOR 234
10.3.3 EVALUATION 236
10.3.4 SIGNAL PROCESSING 237
10.4 CHARGE-MODULATION IMAGE PIXEL APPLICATION 239
10.4.1 PIXEL CONSTRUCTION 242
10.4.2 OPERATION 243
10.4.3 SIMULATION 245
10.4.4 RESULTS 245
10.4.5 APPLICATIONS OF AREA SENSOR 246
10.5 CONCLUSIONS 248
REFERENCES 248
11 ENERGY-SENSITIVE SINGLE-PHOTON X-RAY AND PARTICLE IMAGING 249
CHRISTIAN LOTTO 11.1 INTRODUCTION 249
11.1.1 APPLICATIONS 250
11.1.2 BASIC TOPOLOGY 251
11.2 PARTICLE SENSING DEVICES 251
11.2.1 DIRECT CONVERSION SENSING DEVICES 252
11.2.2 SCINTILLATORS COUPLED TO SENSING DEVICES FOR VISIBLE LIGHT 253
11.3 ASYNCHRONOUS CHARGE PULSE DETECTING CIRCUITS 254
11.3.1 CHARGE SENSITIVE AMPLIFIER 255
11.3.2 CHARGE SENSITIVE AMPLIFIER WITH SHAPER 261
11.3.3 VOLTAGE BUFFER WITH SHAPER 269
11.4 VOLTAGE PULSE PROCESSING CIRCUITS 271
11.4.1 ENERGY DISCRIMINATION METHODS 272
11.4.2 INFORMATION READOUT 272
REFERENCES 273
IMAGE 6
XIV CONTENTS
12 SINGLE-PHOTON DETECTORS FOR TIME-OF-FLIGHT RANGE IMAGING 275 DAVID
STOPPA AND ANDREA SIMONI 12.1 INTRODUCTION 275
12.2 TIME-OF-FLIGHT MEASURING TECHNIQUES AND SYSTEMS 278 12.2.1
TIME-OF-FLIGHT SYSTEM 278
12.2.2 DIRECT AND INDIRECT TIME MEASURING TECHNIQUES 279 12.2.3 OPTICAL
POWER BUDGET 281
12.2.4 D-TOF AND I-TOF NOISE CONSIDERATIONS 284
12.3 SINGLE-PHOTON SENSORS FOR 3D-TOF IMAGING 286
12.3.1 SINGLE-PHOTON DETECTORS 286
12.3.2 PIXEL ARCHITECTURES FOR SINGLE-PHOTON TOF IMAGING 288 12.3.3
CIRCUIT IMPLEMENTATIONS FOR I-TOF PIXELS 289 12.3.4 CIRCUIT
IMPLEMENTATIONS FOR D-TOF PIXELS 291 12.3.5 STATE-OF-THE-ART
TIME-RESOLVED CMOS SPAD
PIXEL-ARRAY 293
12.4 CHALLENGES AND FUTURE PERSPECTIVES 294
12.5 CONCLUSIONS 297
REFERENCES 298
13 SINGLE-PHOTON IMAGING FOR ASTRONOMY AND AEROSPACE APPLICATIONS 301
PIERRE MAGNAN 13.1 INTRODUCTION 301
13.2 SCIENTIFIC DETECTORS IN ASTRONOMY AND SPACE APPLICATIONS 303 13.2.1
SCIENTIFIC CCDS 303
13.3 IMAGING THROUGH THE ATMOSPHERE 309
13.4 LUCKY IMAGING TECHNIQUE 311
13.5 ADAPTIVE OPTICS 313
13.5.1 PRINCIPLES 313
13.5.2 WAVEFRONT SENSOR REQUIREMENTS AND DETECTOR IMPLEMENTATIONS 315
13.5.3 INFRARED DETECTORS FOR WAVEFRONT SENSOR 319
13.6 SPACE LIDAR APPLICATIONS 321
13.7 CONCLUDING REMARKS 324
REFERENCES 325
14 EXPLOITING MOLECULAR BIOLOGY BY TIME-RESOLVED FLUORESCENCE IMAGING
329
FRANCIS MUELLER AND CHRISTOF FATTINGER 14.1 INTRODUCTION: TIME-RESOLVED
FLUORESCENCE AS A UNIQUELY SENSITIVE DETECTION METHOD FOR THE ANALYSIS
OF MOLECULAR BIOLOGY 329
14.1.1 LABELING OF SPECIFIC MOLECULES BY A LONG- LIFETIME FLUOROPHORE
330
IMAGE 7
CONTENTS XV
14.1.2 INTEGRATION OF THE INVESTIGATED SPECIMENS IN A PLANAR ARRAY:
HOMOGENEOUS AND HETEROGENEOUS ASSAYS 331
14.1.3 EXCITATION OF MULTIPLE SPECIMENS IN THE ARRAY BY INTENSE LIGHT
PULSES AND IMAGING OF THE ARRAYED SPECIMENS ON AN IMAGE SENSOR CONCEIVED
FOR TIME-GATED READOUT
OF THE FLUORESCENCE SIGNAL 332
14.1.4 MICROARRAY ASSAYS 333
14.2 PROPERTIES OF THE IDEAL FLUOROPHORE FOR ULTRA-SENSITIVE
FLUORESCENCE DETECTION 334
14.3 RUTHENIUM COMPLEXES 336
14.4 APPLICATIONS IN THE LIFE SCIENCES 338
14.4.1 ASSAY FOR DRUG DISCOVERY 338
14.4.2 ASSAY FOR POINT OF CARE TESTING 341
14.5 PROSPECTIVE USE OF ULTRA-LOW-NOISE CMOS IMAGE SENSORS FOR
TIME-RESOLVED FLUORESCENCE IMAGING 342 REFERENCES 344
INDEX 345
|
| any_adam_object | 1 |
| author2 | Seitz, Peter |
| author2_role | edt |
| author2_variant | p s ps |
| author_facet | Seitz, Peter |
| building | Verbundindex |
| bvnumber | BV039564761 |
| classification_rvk | UH 5100 ZQ 6270 |
| classification_tum | MSR 420f PHY 140f |
| ctrlnum | (OCoLC)724793158 (DE-599)DNB100931050X |
| dewey-full | 539.77 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 539 - Modern physics |
| dewey-raw | 539.77 |
| dewey-search | 539.77 |
| dewey-sort | 3539.77 |
| dewey-tens | 530 - Physics |
| discipline | Physik Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik |
| edition | 1. ed. |
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| id | DE-604.BV039564761 |
| illustrated | Illustrated |
| indexdate | 2024-12-24T02:20:30Z |
| institution | BVB |
| isbn | 9783642184420 3642184421 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024416364 |
| oclc_num | 724793158 |
| open_access_boolean | |
| owner | DE-11 DE-83 DE-92 DE-91G DE-BY-TUM |
| owner_facet | DE-11 DE-83 DE-92 DE-91G DE-BY-TUM |
| physical | XVIII, 351 S. Ill., graph. Darst. |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Springer |
| record_format | marc |
| series | Springer series in optical sciences |
| series2 | Springer series in optical sciences |
| spellingShingle | Single-photon imaging Springer series in optical sciences Photonendetektor (DE-588)4466001-7 gnd Bildsensor (DE-588)4495594-7 gnd Optischer Sensor (DE-588)4075677-4 gnd Festkörperbildsensor (DE-588)4136079-5 gnd Photonenzähler (DE-588)4482977-2 gnd |
| subject_GND | (DE-588)4466001-7 (DE-588)4495594-7 (DE-588)4075677-4 (DE-588)4136079-5 (DE-588)4482977-2 |
| title | Single-photon imaging |
| title_auth | Single-photon imaging |
| title_exact_search | Single-photon imaging |
| title_full | Single-photon imaging Peter Seitz (eds.)... |
| title_fullStr | Single-photon imaging Peter Seitz (eds.)... |
| title_full_unstemmed | Single-photon imaging Peter Seitz (eds.)... |
| title_short | Single-photon imaging |
| title_sort | single photon imaging |
| topic | Photonendetektor (DE-588)4466001-7 gnd Bildsensor (DE-588)4495594-7 gnd Optischer Sensor (DE-588)4075677-4 gnd Festkörperbildsensor (DE-588)4136079-5 gnd Photonenzähler (DE-588)4482977-2 gnd |
| topic_facet | Photonendetektor Bildsensor Optischer Sensor Festkörperbildsensor Photonenzähler |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=3644389&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024416364&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000000237 |
| work_keys_str_mv | AT seitzpeter singlephotonimaging |