Verfügbarkeit: Advanced time-correlated single photon counting techniques

Advanced time-correlated single photon counting techniques:

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Bibliographische Detailangaben
1. Verfasser:	Becker, Wolfgang (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Schriftenreihe:	Springer series in chemical physics 81
Schlagworte:	Corrélation de photons Fotônica Física moderna Photon correlation Einzelmolekülspektroskopie Photonenzähler Pikosekundenbereich Fluoreszenzspektroskopie Zeitauflösung Optische Tomografie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 351 - 387
Beschreibung:	XIX, 401 S. Ill., graph. Darst. 24 cm
ISBN:	9783540260479 3540260471

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS LIST OF TECHNICAL TERMS AND SYMBOLS........................................ XIII 1 OPTICAL SIGNAL RECORDING ................................................................. 1 2 OVERVIEW OF PHOTON COUNTING TECHNIQUES................................... 11 2.1 STEADY-STATE PHOTON COUNTING ............................................... 11 2.2 GATED PHOTON COUNTING .......................................................... 12 2.3 MULTICHANNEL SCALERS .............................................................. 16 2.4 TIME-CORRELATED SINGLE PHOTON COUNTING (TCSPC) .............. 20 2.4.1 GENERAL PRINCIPLE ...................................................... 20 2.4.2 THE CLASSIC TCSPC SETUP ........................................ 23 2.4.3 REVERSED START-STOP .................................................. 24 3 MULTIDIMENSIONAL TCSPC TECHNIQUES ......................................... 27 3.1 MULTIDETECTOR TCSPC............................................................. 29 3.2 MULTIPLEXED TCSPC ............................................................... 33 3.3 SEQUENTIAL RECORDING TECHNIQUES .......................................... 35 3.4 SCANNING TECHNIQUES.............................................................. 37 3.5 IMAGING BY POSITION-SENSITIVE DETECTION ............................... 39 3.6 TIME-TAG RECORDING .............................................................. 43 3.7 MULTIMODULE SYSTEMS............................................................. 45 4 BUILDING BLOCKS OF ADVANCED TCSPC DEVICES ............................. 47 4.1 CONSTANT-FRACTION DISCRIMINATORS .......................................... 47 4.2 TIME MEASUREMENT BLOCK ...................................................... 50 4.2.1 TIME MEASUREMENT BY FAST TAC / ADC PRINCIPLE... 50 4.2.2 DIGITAL TDCS............................................................. 55 4.2.3 SINE-WAVE CONVERSION ............................................. 59 5 APPLICATION OF MODERN TCSPC TECHNIQUES................................. 61 5.1 CLASSIC FLUORESCENCE LIFETIME EXPERIMENTS .......................... 61 5.1.1 TIME-RESOLVED FLUORESCENCE.................................... 61 5.1.2 FLUORESCENCE LIFETIME SPECTROMETERS....................... 65 5.1.3 FLUORESCENCE DEPOLARISATION EFFECTS......................... 69 VIII CONTENTS 5.1.4 REABSORPTION AND REEMISSION................................... 72 5.1.5 HIGH-EFFICIENCY DETECTION SYSTEMS.......................... 72 5.1.6 MEASUREMENT OF THE INSTRUMENT RESPONSE FUNCTION .................................................................... 75 5.1.7 WHAT IS THE SHORTEST LIFETIME THAT CAN BE MEASURED? ............................................................ 77 5.1.8 FLUORESCENCE ANISOTROPY .......................................... 79 5.1.9 TIME RESOLVED SPECTRA ............................................. 82 5.2 MULTISPECTRAL FLUORESCENCE LIFETIME EXPERIMENTS................. 84 5.3 EXCITATION-WAVELENGTH MULTIPLEXING ..................................... 87 5.4 TRANSIENT FLUORESCENCE LIFETIME PHENOMENA ........................ 90 5.4.1 CHLOROPHYLL TRANSIENTS.............................................. 90 5.4.2 CONTINUOUS-FLOW MIXING TECHNIQUES ...................... 94 5.4.3 STOPPED-FLOW TECHNIQUES ........................................ 95 5.5 DIFFUSE OPTICAL TOMOGRAPHY (DOT) AND PHOTON MIGRATION.. 97 5.5.1 PRINCIPLE OF DIFFUSE OPTICAL TOMOGRAPHY ................ 97 5.5.2 SCANNING MAMMOGRAPHY ........................................ 102 5.5.3 BRAIN IMAGING ......................................................... 106 5.5.4 MUSCLE AND BONE STUDIES........................................ 112 5.5.5 EXOGENOUS ABSORBERS ............................................. 112 5.5.6 FLUORESCENCE ........................................................... 113 5.5.7 SMALL-ANIMAL IMAGING............................................ 115 5.5.8 TECHNICAL ASPECTS OF TCSPC-BASED DOT ............. 117 5.6 AUTOFLUORESCENCE OF BIOLOGICAL TISSUE ................................ 121 5.6.1 AUTOFLUORESCENCE DETECTION BY MULTISPECTRAL TCSPC ......................................... 122 5.6.2 TWO-PHOTON AUTOFLUORESCENCE ............................... 124 5.6.3 OPHTHALMIC IMAGING ............................................... 126 5.7 TCSPC LASER SCANNING MICROSCOPY.................................... 129 5.7.1 THE LASER SCANNING MICROSCOPE............................. 131 5.7.2 LIFETIME IMAGING TECHNIQUES FOR LASER SCANNING MICROSCOPY.............................................. 134 5.7.3 IMPLEMENTATION OF MULTIDIMENSIONAL TCSPC ........ 137 5.7.4 MULTISPECTRAL FLIM................................................. 143 5.7.5 HIGH COUNT-RATE SYSTEMS....................................... 146 5.7.6 FRET MEASUREMENTS BY TCSPC FLIM.................. 149 5.7.7 TECHNICAL DETAILS OF TCSPC LASER SCANNING MICROSCOPY ............................................................. 154 5.8 OTHER TCSPC MICROSCOPY TECHNIQUES ................................ 163 5.8.1 TCSPC LIFETIME IMAGING BY SCAN STAGES .............. 163 5.8.2 MICROFLUOROMETRY.................................................... 166 CONTENTS IX 5.8.3 TIME-RESOLVED SCANNING NEAR-FIELD OPTICAL MICROSCOPY ............................................................. 167 5.8.4 TCSPC WIDE-FIELD MICROSCOPY ............................. 168 5.9 PICOSECOND PHOTON CORRELATION ............................................ 169 5.9.1 ANTIBUNCHING EXPERIMENTS..................................... 170 5.9.2 PRACTICAL DETAILS ...................................................... 173 5.10 FLUORESCENCE CORRELATION SPECTROSCOPY ............................... 176 5.10.1 COMBINED FCS/LIFETIME EXPERIMENTS BY TCSPC ............................................................... 177 5.10.2 FCS IN LASER SCANNING MICROSCOPES ...................... 182 5.10.3 PRACTICAL TIPS .......................................................... 184 5.11 COMBINATIONS OF CORRELATION TECHNIQUES............................. 187 5.11.1 COMBINING PICOSECOND CORRELATION AND FCS ......... 188 5.11.2 CORRELATION OF DELAYED DETECTOR SIGNALS ................ 188 5.11.3 SYNCHRONISATION OF TCSPC MODULES ...................... 189 5.12 THE PHOTON COUNTING HISTOGRAM.......................................... 191 5.13 TIME-RESOLVED SINGLE MOLECULE SPECTROSCOPY.................... 193 5.13.1 BURST-INTEGRATED FLUORESCENCE LIFETIME (BIFL) EXPERIMENTS ............................................................ 194 5.13.2 IDENTIFICATION OF SINGLE MOLECULES.......................... 196 5.13.3 MULTIPARAMETER SPECTROSCOPY OF SINGLE MOLECULES..................................................... 198 5.14 MISCELLANEOUS TCSPC APPLICATIONS .................................... 201 5.14.1 TWO-PHOTON FLUORESCENCE WITH DIODE LASER EXCITATION ................................................................ 201 5.14.2 REMOTE SENSING ...................................................... 204 5.14.3 LASER RANGING ......................................................... 206 5.14.4 POSITRON LIFETIME EXPERIMENTS ............................... 206 5.14.5 DIAGNOSTICS OF BARRIER DISCHARGES .......................... 208 5.14.6 SONOLUMINESCENCE................................................... 210 5.14.7 THE TCSPC OSCILLOSCOPE ....................................... 211 6 DETECTORS FOR PHOTON COUNTING.................................................... 213 6.1 DETECTOR PRINCIPLES ............................................................... 213 6.1.1 CONVENTIONAL PHOTOMULTIPLIER TUBES ...................... 213 6.1.2 CHANNEL AND MICROCHANNEL PMTS........................... 214 6.1.3 POSITION-SENSITIVE PMTS......................................... 215 6.1.4 SINGLE-PHOTON AVALANCHE PHOTODIODES................... 217 6.1.5 HYBRID PMTS .......................................................... 220 6.1.6 OTHER DETECTOR PRINCIPLES........................................ 221 X CONTENTS 6.2 CHARACTERISATION OF DETECTORS ............................................... 222 6.2.1 GAIN......................................................................... 222 6.2.2 SINGLE-ELECTRON RESPONSE ....................................... 222 6.2.3 SIGNAL TRANSIT TIME ................................................ 224 6.2.4 TRANSIT TIME SPREAD................................................ 224 6.2.5 PULSE AMPLITUDE JITTER............................................. 226 6.2.6 CATHODE EFFICIENCY.................................................. 229 6.2.7 DARK COUNT RATE ..................................................... 231 6.2.8 AFTERPULSING PROBABILITY.......................................... 233 6.2.9 PREPULSES ................................................................. 234 6.3 MEASUREMENT OF PMT PARAMETERS........................................ 234 6.3.1 SINGLE ELECTRON RESPONSE ....................................... 234 6.3.2 TRANSIT TIME SPREAD................................................ 236 6.3.3 PULSE AMPLITUDE DISTRIBUTION ................................. 237 6.3.4 AFTERPULSING PROBABILITY.......................................... 239 6.3.5 LUMINOUS SENSITIVITY AND QUANTUM EFFICIENCY ...... 241 6.4 PHOTON COUNTING PERFORMANCE OF SELECTED DETECTORS .......... 242 6.4.1 MCP-PMTS............................................................. 243 6.4.2 COOLED PMT MODULES WITH GAAS BASED CATHODES.................................................................. 245 6.4.3 PMT MODULES WITH INTERNAL DISCRIMINATORS ........... 247 6.4.4 MINIATURE PMTS IN TO * 8 HOUSING......................... 248 6.4.5 PHOTOSENSOR MODULES .............................................. 249 6.4.6 MULTIANODE PMTS ................................................... 252 6.4.7 LINEAR FOCUSED PMTS ............................................. 254 6.4.8 SIDE-WINDOW PMTS................................................ 256 6.4.9 CHANNEL PHOTOMULTIPLIERS........................................ 258 6.4.10 SINGLE PHOTON AVALANCHE PHOTODIODES ................... 258 7 PRACTICE OF TCSPC EXPERIMENTS ................................................. 263 7.1 EXCITATION SOURCES................................................................ 263 7.2 OPTICAL SYSTEMS.................................................................... 268 7.2.1 LENSES ..................................................................... 269 7.2.2 FILTERS ...................................................................... 273 7.2.3 BEAM SPLITTERS......................................................... 278 7.2.4 MONOCHROMATORS AND POLYCHROMATORS .................... 279 7.2.5 OPTICAL FIBRES.......................................................... 282 7.2.6 REFLECTIONS IN OPTICAL SYSTEMS ............................... 285 7.2.7 BAFFLES, APERTURE STOPS AND FIELD STOPS ................. 288 7.2.8 DETECTORS ................................................................. 289 7.2.9 CHOOSING THE DETECTOR............................................. 289 7.2.10 QUICK TEST OF PMTS................................................ 292 CONTENTS XI 7.2.11 SIGNAL-DEPENDENT BACKGROUND ............................... 294 7.2.12 INSTABILITY IN PMTS ................................................. 295 7.2.13 TIMING STABILITY ...................................................... 296 7.2.14 PMT VOLTAGE DIVIDERS............................................ 299 7.2.15 PREAMPLIFIERS ........................................................... 300 7.3 DETECTOR CONTROL AND OVERLOAD PROTECTION ........................... 302 7.4 GENERATING THE SYNCHRONISATION SIGNAL ................................ 304 7.5 SYSTEM CONNECTIONS ............................................................. 307 7.5.1 CONNECTOR SYSTEMS.................................................. 307 7.5.2 CABLES...................................................................... 308 7.5.3 ATTENUATORS AND POWER SPLITTERS.............................. 310 7.5.4 SHIELDING AND GROUNDING ........................................ 311 7.6 SAFETY CONSIDERATIONS........................................................... 315 7.7 SETTING THE TCSPC SYSTEM PARAMETERS ................................ 317 7.7.1 OPTIMISATION OF THE CFD IN THE DETECTOR CHANNEL ................................................................... 317 7.7.2 REFERENCE CFD........................................................ 322 7.7.3 ADJUSTING THE DELAY IN THE DETECTOR AND REFERENCE CHANNEL ............................................ 323 7.7.4 CHOOSING THE TAC PARAMETERS................................. 326 7.8 DIFFERENTIAL NONLINEARITY ....................................................... 330 7.9 COUNTING LOSS IN TCSPC SYSTEMS........................................ 332 7.9.1 CLASSIC PILE-UP EFFECT.............................................. 332 7.9.2 COUNTING LOSS .......................................................... 338 7.9.3 DEAD-TIME-RELATED SIGNAL DISTORTION ..................... 343 7.10 CALIBRATION OF THE TIME SCALE................................................ 345 8 FINAL REMARKS................................................................................ 347 9 REFERENCES ...................................................................................... 351 INDEX ............................................................................................... 389
any_adam_object	1
author	Becker, Wolfgang
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isbn	9783540260479 3540260471
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-013366463
oclc_num	61320823
open_access_boolean
owner	DE-384 DE-20 DE-703 DE-83 DE-11 DE-188 DE-355 DE-BY-UBR
owner_facet	DE-384 DE-20 DE-703 DE-83 DE-11 DE-188 DE-355 DE-BY-UBR
physical	XIX, 401 S. Ill., graph. Darst. 24 cm
publishDate	2005
publishDateSearch	2005
publishDateSort	2005
publisher	Springer
record_format	marc
series	Springer series in chemical physics
series2	Springer series in chemical physics
spelling	Becker, Wolfgang Verfasser aut Advanced time-correlated single photon counting techniques W. Becker Berlin [u.a.] Springer 2005 XIX, 401 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Springer series in chemical physics 81 Literaturverz. S. 351 - 387 Corrélation de photons Fotônica larpcal Física moderna larpcal Photon correlation Einzelmolekülspektroskopie (DE-588)4396226-9 gnd rswk-swf Photonenzähler (DE-588)4482977-2 gnd rswk-swf Pikosekundenbereich (DE-588)4115562-2 gnd rswk-swf Fluoreszenzspektroskopie (DE-588)4017701-4 gnd rswk-swf Zeitauflösung (DE-588)4245662-9 gnd rswk-swf Optische Tomografie (DE-588)4491198-1 gnd rswk-swf Photonenzähler (DE-588)4482977-2 s Zeitauflösung (DE-588)4245662-9 s Pikosekundenbereich (DE-588)4115562-2 s Fluoreszenzspektroskopie (DE-588)4017701-4 s Einzelmolekülspektroskopie (DE-588)4396226-9 s Optische Tomografie (DE-588)4491198-1 s DE-604 Springer series in chemical physics 81 (DE-604)BV000000670 81 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013366463&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Becker, Wolfgang Advanced time-correlated single photon counting techniques Springer series in chemical physics Corrélation de photons Fotônica larpcal Física moderna larpcal Photon correlation Einzelmolekülspektroskopie (DE-588)4396226-9 gnd Photonenzähler (DE-588)4482977-2 gnd Pikosekundenbereich (DE-588)4115562-2 gnd Fluoreszenzspektroskopie (DE-588)4017701-4 gnd Zeitauflösung (DE-588)4245662-9 gnd Optische Tomografie (DE-588)4491198-1 gnd
subject_GND	(DE-588)4396226-9 (DE-588)4482977-2 (DE-588)4115562-2 (DE-588)4017701-4 (DE-588)4245662-9 (DE-588)4491198-1
title	Advanced time-correlated single photon counting techniques
title_auth	Advanced time-correlated single photon counting techniques
title_exact_search	Advanced time-correlated single photon counting techniques
title_full	Advanced time-correlated single photon counting techniques W. Becker
title_fullStr	Advanced time-correlated single photon counting techniques W. Becker
title_full_unstemmed	Advanced time-correlated single photon counting techniques W. Becker
title_short	Advanced time-correlated single photon counting techniques
title_sort	advanced time correlated single photon counting techniques
topic	Corrélation de photons Fotônica larpcal Física moderna larpcal Photon correlation Einzelmolekülspektroskopie (DE-588)4396226-9 gnd Photonenzähler (DE-588)4482977-2 gnd Pikosekundenbereich (DE-588)4115562-2 gnd Fluoreszenzspektroskopie (DE-588)4017701-4 gnd Zeitauflösung (DE-588)4245662-9 gnd Optische Tomografie (DE-588)4491198-1 gnd
topic_facet	Corrélation de photons Fotônica Física moderna Photon correlation Einzelmolekülspektroskopie Photonenzähler Pikosekundenbereich Fluoreszenzspektroskopie Zeitauflösung Optische Tomografie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013366463&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000000670
work_keys_str_mv	AT beckerwolfgang advancedtimecorrelatedsinglephotoncountingtechniques

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