Verfügbarkeit: Optically stimulated luminescence dosimetry

Optically stimulated luminescence dosimetry:

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Hauptverfasser:	Bøtter-Jensen, Lars (VerfasserIn), McKeever, Stephen W. S. (VerfasserIn), Wintle, Ann G. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2003
Ausgabe:	1. ed.
Schlagworte:	Dosimetria Luminescência Luminescence Optical radiometry Radiation dosimetry Lumineszenz Dosimetrie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 355 S. graph. Darst.
ISBN:	0444506845

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Datensatz im Suchindex

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adam_text	Titel: Optically stimulated luminescence dosimetry Autor: Bøtter-Jensen, Lars Jahr: 2003 TABLE OF CONTENTS PREFACE ................................................................. xv CHAPTER1: INTRODUCTION .......................................... 1 1.1 Optically stimulated luminescence ....................................... 1 1.2 Historical development of OSL dosimetry ............................... 2 1.3 OSL dosimetry ......................................................... 5 1.3.1 Personal dosimetry ............................................... 7 1.3.2 Environmental dosimetry ......................................... 9 1.3.3 Medical dosimetry ............................................... 9 1.3.4 Retrospective dosimetry .......................................... 9 1.4 Thisbook ............................................................. li CHAPTER 2: OPTICALLY STIMULATED LUMINESCENCE THEORY .................................................. 15 2.1 Stimulated luminescence ............................................... 15 2.2 Generalised mathematical description of optically stimulated luminescence ........................................................... 17 2.3 The photoionisation cross-section ...................................... 19 2.3.1 Optical transitions .............................................. 19 2.3.2 Wavelength dependence ......................................... 21 2.3.3 Measurement of the photoionisation cross-section ................. 23 2.4 CW-OSL ........... ................................................... 27 2.4.1 Models and rate equations ....................................... 27 2.4.2 The one~trapfone-cenfre model ................................... 27 2.4.3 Models containing multiple-traps and centres ..................... 30 2.4.4 A more generalised model ....................................... 34 2.4.5 Temperature dependence effects .................................. 37 2.4.6 Thermal quenching .............................................. 44 2.5 LM-OSL .............................................................. 47 2.5.1 First- and general-order-kinetics ................................. 47 2.5.2 Relationship between LM-OSL and CW-OSL .................... 52 2.5.3 Wavelength dependence of LM-OSL ............................. 52 2.5.4 Photoconductivitv ............................................... 54 vüi Table of Contents 2.6 Pulsed OSL ............................................................ 56 2.6.1 Principles ofpulsed OSL ........................................ 56 2.6.2 Delayed OSL ................................................... 59 2.7 Phototransferred effects ................................................ 60 2.7.1 Procedure ...................................................... 60 2.7.2 Mathematical description and typical data ........................ 61 2.8 Radiophotoluminescence ............................................... 65 2.8.1 Procedure ...................................................... 65 CHAPTER 3: OSL PROPERTIES OF SYNTHETIC MATERIALS ...... 71 3.1 A120,:C ............................................................... 71 3.1.1 Introduction .................................................... 71 3.1.2 Crystal growth .................................................. 71 3.1.3 OSL Stimulation and emission characteristics of Al2Oj:C ......... 73 3.1.4 The OSL response of AljOj. C to radiation exposure .............. 75 3.1.5 The temperature dependence of OSL from Al2Oj.C ............... 77 3.1.6 Zeroing of the OSL signalfrom AljÖj.C ......................... 79 3.2 Hatides ................................................................ 81 3.2.1 KCl ............................................................ 81 3.2.2 KBr ............................................................ 82 3.2.3 NaCl ........................................................... 84 3.2.4 RM ............................................................ 85 3.2.5 CaF2........................................................... 86 3.2.6 BaFX (X=*Br.Cl.D ........................................... 87 3.3 Sulphates .............................................................. 90 3.3.1 MgS04 ......................................................... 90 3.3.2 CaS04 ......................................................... 90 3.4 Sulphides .............................................................. 90 3.4.1 AS(A = Mg, Sr,Ca,Ba) ....................................... 90 3.5 Oxides ................................................................. 92 3.5.1 BeO ............................................................ 92 3.5.2 Fused quartz .................................................... 95 CHAPTER 4: PASSIVE OPTICALLY STIMULATED LUMINESCENCE DOSIMETRY ............................................. 101 4.1 Personal dosimetry ................................................... 101 4.1.1 Introduction ................................................... 101 4.1.2 Landauer s Luxel? personal dosimetry system .................. 102 4.1.3 Landauers InLight? personal dosimetry System ................. 102 4.1.4 Beta dosimetry ................................................. 104 4.1.5 POSL imaging ................................................. 104 Table of Contents ix 4.2 Environmental OSL dosimetry using AliO^C ......................... 107 4.2.1 Measurement of the natural terrestrial background radiation ..... 107 4.2.2 Measurement of the natural space background radiation ......... 107 4.3 UV dosimetry ........................................................ 110 4.4 OSL and RL remote optical fibre dosimetry in medical applications ? 112 4.4.1 Real-time (RT) in vivo monitoring of doses during radiotherapy .. 112 4.4.2 Optical fibre dosimeters ........................................ 112 CHAPTER 5: OSL PROPERTIES OF NATURAL MATERIALS ........ 119 5.1 Quartz ............................................................... 119 5.1.1 Crystal structure and point defects .............................. 119 5.1.2 Decay curve shapes obtained under continuous Stimulation? C W-OSL...................................................... 123 5.1.2.1 Stimulation sources ................................... 123 5.7.2.2 Effect of the 110° Ctrap............................... 123 5.1.2.3 Dependence on power ................................. 125 5.1.2.4 Three components .................................... 126 5.7.2.5 Effect of Stimulation wavelength ....................... 127 5.7.2.6 Effect of Stimulation temperature ...................... 130 5.1.3 Linear modulation OSL?LM-OSL ............................. 130 5.7J.7 LM-OSL at 160°C with 470 nm Stimulation ............ 130 5.1.3.2 LM-OSL at different temperatures with 526 nm Stimulation ................................... 135 5.1.3.3 LM-OSL from single grains using 532 nm ............. 135 5.1.4 PulsedOSL ................................................... 136 5.1.4.1 Time resolved luminescence ........................... 137 5.1.4.2 Delayed optically stimulated luminescence or optically stimulated afterglow .................................. 140 5.1.5 Excitation spectra .............................................. 141 5.1.5.1 Bleaching response spectrum .......................... 141 5.1.5.2 Excitation spectra after bleaching by 514 ± 25 nm light ................................................. 143 5.1.5.3 Continuous scanning of Stimulation wavelengths ........ 143 5.1.5.4 Excitation using interference filters and xenon lamp ? 145 5.1.5.5 Excitation using laser lines from 458 to 645 nm ........ 147 5.7.5.6 Stimulation in the infra-red 780-920 nm ............... 147 5.1.6 Emission spectra ............................................... 149 5.1.6.1 OSL emission spectra ................................. 149 5.7.6.2 TL emission spectra .................................. 150 5.1.6.2.1 360-420 nm (near UV to violet) ........... 150 5.7.6.2.2 420-490 nm(blue) ........................ 153 5.1.6.2.3 590-650 nm (orange-red) .................. 153 5.1.6.3 Radioluminescence .................................... 155 x Table of Contents 5.1.7 Dose dependence ............................................... 157 5.1.7.1 Fast component....................................... 157 5.1.7.1.1 Multiple aliquot data ....................... 157 5.1.7.1.2 Single aliquot data ......................... 159 5.1.7.1.3 Single grain data .......................... 160 5.1.7.2 Low doses............................................ 160 5.1.8 Effects ofprevious thermal treatment ............................ 162 5.1.8.7 High temperature annealing?above 500°C ............ 162 5.1.8.1.1 Comparison of LM-OSL, TL, RL and EPR .................................. 162 5.1.8.7.2 CW-OSL growth curves after annealing..... 165 5.1.8.2 Low temperature annealing?160 to 280°C ............ 167 5.1.8.3 Thermal stability ..................................... 169 5.1.8.3.1 Isothermal decay........................... 169 5.1.8.3.2 Pulse annealing ............................ 170 5.1.8.4 Irradiation at elevated temperatures ................... 173 5.1.8.5 Thermal transfer ..................................... 174 5.1.9 Raised temperature OSL ....................................... 177 5.1.9.1 Thermal quenching ................................... 177 5.7.9.2 Thermal assistance ................................... 179 5.1.10 The slow component ............................................ 180 5.7.70.7 Thermal stability .......................... 181 5.7.70.2 Growth curve .............................. 183 5.1.10.3 Optical bleaching .......................... 184 5.7.70.4 TRL ...................................... 184 5.1.11 Photoionisation cross-section ................................... 184 5.1.12 Modelling processes giving rise to OSL in quartz ................ 186 5.1.13 Summary...................................................... 188 5.2 Feldspars ............................................................. 188 5.2.1 Crystal structure ............................................... 188 5.2.2 Decay curve shape obtained under continuous Stimulation?CW-OSL and CW-1RSL ................................................. 189 5.2.2.1 Stimulation sources ................................... 189 5.2.2.2 Effect of Stimulation temperature ...................... 189 5.2.2.2.1 Initial part of Signal ........................ 189 5.2.2.2.2 Decay curve shape ......................... 194 5.2.3 Linear modulaüon IRSL ....................................... 194 5.2.4 Pulsed OSL and IRSL ......................................... 197 5.2.4.7 Pulsed OSL .......................................... 197 5.2.4.2 PulsedlRSL ......................................... 197 5.2.4.3 Optically stimulated afterglow ......................... 197 5.2.5 Excitation spectra .............................................. 199 5.2.5.1 Direct measurements .................................. 199 Table of Contents xi 5.2.5.2 Bleaching response spectrum .......................... 201 5.2.6 Emission spectra ............................................... 201 5.2.6.1 IRSL emission spectra ................................ 201 5.2.6.7.7 280-290 nm (near UV) .................... 201 5.2.6.7.2 320-340 nm (near UV) .................... 202 5.2.6.1.3 390-440 nm (violet/blue) .................. 203 5.2.6.1.4 550-570 nm (yellow/green) ................ 203 5.2.6.7.5 600-750 nm (red/far red) .................. 203 5.2.6.2 TL emission spectra.................................. 203 5.2.6.3 RL emission spectra .................................. 203 5.2.6.3.1 Under X-ray Stimulation at low temperature ............................... 203 5.2.6.3.2 Under X-ray Stimulation above room temperature ............................... 205 5.2.6.3.3 Under beta Stimulation from ali7Cs source . 205 5.2.6.4 Photoluminescence emission spectra ................... 205 5.2.7 Effects ofprevious optical treatment ............................ 207 5.2.7.1 Bleaching at ambient temperature..................... 207 5.2.7.2 IR bleaching at elevated temperature .................. 208 5.2.8 Effects ofprevious thermal treatment ............................ 211 5.2.8.1 Pre-heating of laboratory and naturally irradiated samples .................................... 211 5.2.8.2 Pulse annealing ....................................... 212 5.2.8.3 Irradiation at elevated temperature .................... 215 5.2.9 Raised temperature IRSL and OSL ............................. 215 5.2.9.1 Thermal quenching ................................... 215 5.2.9.2 Thermal assistance ................................... 216 5.2.9.2.1 Above room temperature ................... 216 5.2.9.2.2 Below room temperature ................... 216 5.2.9.2.3 Wavelength dependence .................... 217 5.2.9.2.4 Link to anomalous fading .................. 218 5.2.10 Anomalous fading .............................................. 219 5.2.70.7 TL. OSL and IRSL .................................. 219 5.2.10.2 A ttempts to remove anomalous fading ................. 219 5.2.10.2.1 Using a preheat ............................ 219 5.2.10.2.2 Using an optical treatment ................. 220 5.2.10.3 Attempts to avoid anomalous fading ................... 220 5.2.10.3.1 Using time-resolved measurements .......... 220 5.2.10.3.2 Using different detection wavelengths ....... 220 5.2.70.4 CL and TL spectra of fading feldspars ................. 220 5.2.10.5 Low temperature phosphorescence ..................... 221 5.2.10.6 Single grain IRSL fading andfadia plots............... 223 5.2.10.7 Logarithmic signal decay .............................. 224 xü Table of Contents 5.2.10.8 Correcting for anomalous fading ....................... 224 5.2.11 Radioluminescence ............................................. 227 5.2.11.1 A new dating method ................................. 227 5.2.11.2 Practical considerations ............................... 229 5.2.11.3 Methods of Dc determination .......................... 229 5.2.11.4 Thermal stability ..................................... 229 5.2.11.5 Single grain measurements ............................ 229 5.2.12 Models for IRSL, OSL, IR-RL in feldspars ..................... 230 5.2.72.7 IRSL ................................................ 230 5.2.12.2 OSL ................................................. 231 5.2.12.3 IR-RL ............................................... 231 5.2.12.4 Comparisonof IR-RL and IRSL (or OSL) ............ 233 5.3 Conclusions .......................................................... 234 CHAPTER 6: RETROSPECTIVE OSL DOSIMETRY .................. 245 Part I: RETROSPECTIVE ACCIDENT DOSIMETRY .................... 245 6.1 Introduction .......................................................... 245 6.2 Materials and sampling ............................................... 246 6.3 Sample preparation and experimental details .......................... 247 6.4 Determination of the accident dose .................................... 247 6.4.1 Retrospective assessment of environmental dose rates ............ 247 6.4.2 Estimaüon ofthe accident dose ................................. 249 6.5 Analytical protocols .................................................. 250 6.5.1 Introduction ................................................... 250 6.5.2 Multiple-aliquot protocols ...................................... 250 6.5.3 The single aliquot regeneration and added dose protocol ___...... 250 6.5.4 True single-atiquot protocols .................................... 252 6.5.4.1 Introduction ......................................... 252 6.5.4.2 Variation of OSL signal with pre-heat.................. 253 6.5.4.3 Choice of OSL Signal ................................. 253 6.5.4.4 Sensitivity changes with regeneration cycles ............ 255 6.5.4.5 The SAR protocol..................................... 255 6.6 Evaluation of dose-depth profiles in bricks ............................ 257 6.6.1 Continuous OSL scanning ...................................... 258 6.6.2 Determination of dose-depth profiles from Chernobyl bricks ..... 259 6.6.3 Absolute errors and estimated precision of the equivatent dose in bricks ....................................................... 259 6.7 Retrospective OSL dosimetry using unheated quartz ................... 260 6.7.1 Dose distributions .............................................. 261 6.7.2 Thermal transfer and sensitivity changes ........................ 263 Table of Contents xiii 6.8 Retrospective OSL dosimetry using household and workpiace chemicals ............................................................. 265 6.9 Retrospective OSL dosimetry using porcelain .......................... 267 6.9.1 Introduction ................................................... 267 6.9.2 The origin of OSL in porcelain ................................. 267 6.9.2.1 Time-decaying dose-dependent OSL Signals ............ 267 6.9.2.2 Times teady PL emission spectra from porcelain ....... 270 6.9.2.3 OSL Stimulation spectra .............................. 271 6.9.3 OSL dose response of porcelain ................................. 271 6.9.4 Dose-depth profiles in porcelain and the effect of transparency ... 272 6.9.5 OSL dosimetry using porcelain dental crowns .................... 273 6.10 Retrospective accident dosimetry?conclusions ........................ 275 Part II: GEOLOGICAL AND ARCHAEOLOGICAL DATING ........... 276 6.11 Measurement procedures .............................................. 276 6.11.1 Multiple-aliquot methods ....................................... 277 6.11.2 Single-aliquot methods ......................................... 280 6.77.2.7 Feldspars ............................................. 280 6.11.2.1.1 Additive dose .............................. 281 6.11.2.1.2 Regenerative dose .......................... 281 6.77.2.2 Quam ............................................... 281 6.11.2.2.1 Additive dose .............................. 281 6.11.2.2.2 Regenerative dose .......................... 285 6.11.2.3 Luminescence sensitivity .............................. 287 6.11.2.4 Reliability of OSL monitoring of sensitivity change ..... 291 6.11.3 Dose distributions for Single aliquots ............................ 293 6.11.3.1 Histograms ........................................... 293 6.11.3.2 Probabitity density plots .............................. 295 6.11.3.3 Radialplots.......................................... 296 6.11.3.4 Calcutation of D,...................................... 297 6.12 Single grains .......................................................... 298 6.12.1 Measurements ................................................. 298 6.72.7.7 Feldspars ............................................. 298 6.72.7.2 Quam ............................................... 299 6.12.2 Dose distributions for Single grains .............................. 299 6.72.2.7 Histograms ........................................... 299 6.72.2.2 Probability density plots .............................. 300 6.12.2.3 Radialplots .......................................... 300 6.12.2.4 Calculation of D,...................................... 301 6.13 Geologicai and archaeoiogical dating-conclusions ..................... 302 xiv Table of Contents CHAPTER 7: OSL MEASUREMENT TECHNOLOGY ................. 311 7.1 Stimulation modes .................................................... 311 7.1.1 CW-OSL ...................................................... 311 7.1.2 LM-OSL ...................................................... 311 7.1.3 POSL ......................................................... 311 7.2 The light detection System ............................................. 312 7.2.1 Photomultiplier tubes ........................................... 312 7.2.2 Imaging photon detectors ....................................... 313 7.2.3 Solid-state detectors ............................................ 314 7.3 Automated OSL readers .............................................. 315 7.4 Development of optical Stimulation sources ............................ 316 7.4.1 Laser Stimulation .............................................. 316 7.4.2 77? LED Stimulation ............................................ 316 7.4.3 IR laser diode Stimulation ...................................... 317 7.4.4 Broad-band light Stimulation .................................... 318 7.4.5 Optimisation of OSL detection .................................. 320 7.4.6 Green LED Stimulation ......................................... 321 7.4.7 Blue LED Stimulation .......................................... 323 7.4.8 Blue LED and cut-offfilter characteristics ....................... 325 7.4.9 Ramping the LEDs............................................. 325 7.4.10 Pulsed and time-resolved OSL.................................. 326 7.5 Wavelength resolved OSL ............................................. 330 7.5.1 Stimulation spectrometry ....................................... 330 7.5.2 Emission spectrometry ......................................... 332 7.6 Imaging Systems ...................................................... 334 7.7 Single grain OSL Systems ............................................. 334 7.7.1 Introduction ................................................... 334 7.7.2 CC7J luminescence imaging Systems ............................. 335 7.7.3 Single grain laser OSL Systems ................................. 335 7.8 OSL Scanners ......................................................... 338 7.9 Portable Systems for OSL measurements in the field ................... 340 7.10 The measurement of RL .............................................. 340 7.11 Commercially available OSL apparatus ................................ 343 7.12 Future developments .................................................. 345 SUBJECT INDEX........................................................ 351
any_adam_object	1
author	Bøtter-Jensen, Lars McKeever, Stephen W. S. Wintle, Ann G.
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owner	DE-11
owner_facet	DE-11
physical	XVII, 355 S. graph. Darst.
publishDate	2003
publishDateSearch	2003
publishDateSort	2003
publisher	Elsevier
record_format	marc
spelling	Bøtter-Jensen, Lars Verfasser aut Optically stimulated luminescence dosimetry L. Bøtter-Jensen ; S. W. S. McKeever ; A. G. Wintle 1. ed. Amsterdam [u.a.] Elsevier 2003 XVII, 355 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Dosimetria larpcal Luminescência larpcal Luminescence Optical radiometry Radiation dosimetry Lumineszenz (DE-588)4135964-1 gnd rswk-swf Dosimetrie (DE-588)4127470-2 gnd rswk-swf Lumineszenz (DE-588)4135964-1 s Dosimetrie (DE-588)4127470-2 s DE-604 McKeever, Stephen W. S. Verfasser aut Wintle, Ann G. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012801244&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Bøtter-Jensen, Lars McKeever, Stephen W. S. Wintle, Ann G. Optically stimulated luminescence dosimetry Dosimetria larpcal Luminescência larpcal Luminescence Optical radiometry Radiation dosimetry Lumineszenz (DE-588)4135964-1 gnd Dosimetrie (DE-588)4127470-2 gnd
subject_GND	(DE-588)4135964-1 (DE-588)4127470-2
title	Optically stimulated luminescence dosimetry
title_auth	Optically stimulated luminescence dosimetry
title_exact_search	Optically stimulated luminescence dosimetry
title_full	Optically stimulated luminescence dosimetry L. Bøtter-Jensen ; S. W. S. McKeever ; A. G. Wintle
title_fullStr	Optically stimulated luminescence dosimetry L. Bøtter-Jensen ; S. W. S. McKeever ; A. G. Wintle
title_full_unstemmed	Optically stimulated luminescence dosimetry L. Bøtter-Jensen ; S. W. S. McKeever ; A. G. Wintle
title_short	Optically stimulated luminescence dosimetry
title_sort	optically stimulated luminescence dosimetry
topic	Dosimetria larpcal Luminescência larpcal Luminescence Optical radiometry Radiation dosimetry Lumineszenz (DE-588)4135964-1 gnd Dosimetrie (DE-588)4127470-2 gnd
topic_facet	Dosimetria Luminescência Luminescence Optical radiometry Radiation dosimetry Lumineszenz Dosimetrie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012801244&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT bøtterjensenlars opticallystimulatedluminescencedosimetry AT mckeeverstephenws opticallystimulatedluminescencedosimetry AT wintleanng opticallystimulatedluminescencedosimetry

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