The thermoluminescence efficiency of Li2B4O7:Cu and of CaSO4:Tm for photons.
Identifieur interne : 000952 ( Main/Merge ); précédent : 000951; suivant : 000953The thermoluminescence efficiency of Li2B4O7:Cu and of CaSO4:Tm for photons.
Auteurs : Th Otto [Suisse] ; L. Gindraux ; M. StrasserSource :
- Radiation protection dosimetry [ 1742-3406 ] ; 2011.
Descripteurs français
- KwdFr :
- Algorithmes, Bore (analyse), Conception d'appareillage, Contrôle des radiations (), Contrôle des radiations (instrumentation), Cuivre (analyse), Dosimétrie thermoluminescente (), Dosimétrie thermoluminescente (instrumentation), Humains, Lithium (analyse), Méthode de Monte-Carlo, Oxygène (analyse), Photons, Radio-isotopes du cobalt (analyse), Radio-isotopes du césium (analyse), Radioprotection (), Radioprotection (instrumentation), Simulation numérique, Sulfate de calcium (analyse), Test de matériaux, Thulium (analyse).
- MESH :
- analyse : Bore, Cuivre, Lithium, Oxygène, Radio-isotopes du cobalt, Radio-isotopes du césium, Sulfate de calcium, Thulium.
- instrumentation : Algorithmes, Conception d'appareillage, Contrôle des radiations, Dosimétrie thermoluminescente, Humains, Méthode de Monte-Carlo, Photons, Radioprotection, Simulation numérique, Test de matériaux.
English descriptors
- KwdEn :
- Algorithms, Boron (analysis), Calcium Sulfate (analysis), Cesium Radioisotopes (analysis), Cobalt Radioisotopes (analysis), Computer Simulation, Copper (analysis), Equipment Design, Humans, Lithium (analysis), Materials Testing, Monte Carlo Method, Oxygen (analysis), Photons, Radiation Monitoring (instrumentation), Radiation Monitoring (methods), Radiation Protection (instrumentation), Radiation Protection (methods), Thermoluminescent Dosimetry (instrumentation), Thermoluminescent Dosimetry (methods), Thulium (analysis).
- MESH :
- chemical , analysis : Boron, Calcium Sulfate, Cesium Radioisotopes, Cobalt Radioisotopes, Copper, Lithium, Oxygen, Thulium.
- instrumentation : Radiation Monitoring, Radiation Protection, Thermoluminescent Dosimetry.
- methods : Radiation Monitoring, Radiation Protection, Thermoluminescent Dosimetry.
- Algorithms, Computer Simulation, Equipment Design, Humans, Materials Testing, Monte Carlo Method, Photons.
Abstract
The intrinsic thermoluminescence (TL) efficiency of a TL detector relates the absorbed dose in the detector material to the light yield observed upon evaluation. Knowledge of the TL efficiency is of interest when performing numerical simulations of detector response, where only absorbed dose can be predicted. Here, the experimental determination of TL efficiency for calcium sulphate (CaSO(4):Tm) and lithium borate (Li(2)B(4)O(7):Cu) is reported. These materials are widely used in Panasonic dosemeter badges. The results of the study are in agreement with predictions from track structure theory and microdosimetry, relating an enhanced light yield at low X-ray energies to supralinear behaviour of the TL phosphor.
DOI: 10.1093/rpd/ncq503
PubMed: 21183547
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pubmed:21183547Le document en format XML
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Gindraux</name></author><author><name sortKey="Strasser, M" sort="Strasser, M" uniqKey="Strasser M" first="M" last="Strasser">M. Strasser</name></author></analytic><series><title level="j">Radiation protection dosimetry</title><idno type="eISSN">1742-3406</idno><imprint><date when="2011" type="published">2011</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Algorithms</term><term>Boron (analysis)</term><term>Calcium Sulfate (analysis)</term><term>Cesium Radioisotopes (analysis)</term><term>Cobalt Radioisotopes (analysis)</term><term>Computer Simulation</term><term>Copper (analysis)</term><term>Equipment Design</term><term>Humans</term><term>Lithium (analysis)</term><term>Materials Testing</term><term>Monte Carlo Method</term><term>Oxygen (analysis)</term><term>Photons</term><term>Radiation Monitoring (instrumentation)</term><term>Radiation Monitoring (methods)</term><term>Radiation Protection (instrumentation)</term><term>Radiation Protection (methods)</term><term>Thermoluminescent Dosimetry (instrumentation)</term><term>Thermoluminescent Dosimetry (methods)</term><term>Thulium (analysis)</term></keywords><keywords scheme="KwdFr" xml:lang="fr"><term>Algorithmes</term><term>Bore (analyse)</term><term>Conception d'appareillage</term><term>Contrôle des radiations ()</term><term>Contrôle des radiations (instrumentation)</term><term>Cuivre (analyse)</term><term>Dosimétrie thermoluminescente ()</term><term>Dosimétrie thermoluminescente (instrumentation)</term><term>Humains</term><term>Lithium (analyse)</term><term>Méthode de Monte-Carlo</term><term>Oxygène (analyse)</term><term>Photons</term><term>Radio-isotopes du cobalt (analyse)</term><term>Radio-isotopes du césium (analyse)</term><term>Radioprotection ()</term><term>Radioprotection (instrumentation)</term><term>Simulation numérique</term><term>Sulfate de calcium (analyse)</term><term>Test de matériaux</term><term>Thulium (analyse)</term></keywords><keywords scheme="MESH" type="chemical" qualifier="analysis" xml:lang="en"><term>Boron</term><term>Calcium Sulfate</term><term>Cesium Radioisotopes</term><term>Cobalt Radioisotopes</term><term>Copper</term><term>Lithium</term><term>Oxygen</term><term>Thulium</term></keywords><keywords scheme="MESH" qualifier="analyse" xml:lang="fr"><term>Bore</term><term>Cuivre</term><term>Lithium</term><term>Oxygène</term><term>Radio-isotopes du cobalt</term><term>Radio-isotopes du césium</term><term>Sulfate de calcium</term><term>Thulium</term></keywords><keywords scheme="MESH" qualifier="instrumentation" xml:lang="en"><term>Radiation Monitoring</term><term>Radiation Protection</term><term>Thermoluminescent Dosimetry</term></keywords><keywords scheme="MESH" qualifier="methods" xml:lang="en"><term>Radiation Monitoring</term><term>Radiation Protection</term><term>Thermoluminescent Dosimetry</term></keywords><keywords scheme="MESH" xml:lang="en"><term>Algorithms</term><term>Computer Simulation</term><term>Equipment Design</term><term>Humans</term><term>Materials Testing</term><term>Monte Carlo Method</term><term>Photons</term></keywords><keywords scheme="MESH" qualifier="instrumentation" xml:lang="fr"><term>Algorithmes</term><term>Conception d'appareillage</term><term>Contrôle des radiations</term><term>Dosimétrie thermoluminescente</term><term>Humains</term><term>Méthode de Monte-Carlo</term><term>Photons</term><term>Radioprotection</term><term>Simulation numérique</term><term>Test de matériaux</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The intrinsic thermoluminescence (TL) efficiency of a TL detector relates the absorbed dose in the detector material to the light yield observed upon evaluation. Knowledge of the TL efficiency is of interest when performing numerical simulations of detector response, where only absorbed dose can be predicted. Here, the experimental determination of TL efficiency for calcium sulphate (CaSO(4):Tm) and lithium borate (Li(2)B(4)O(7):Cu) is reported. These materials are widely used in Panasonic dosemeter badges. The results of the study are in agreement with predictions from track structure theory and microdosimetry, relating an enhanced light yield at low X-ray energies to supralinear behaviour of the TL phosphor.</div></front></TEI></record>Pour manipuler ce document sous Unix (Dilib)
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