Characterization of a synthetic single crystal diamond detector for dosimetry in spatially fractionated synchrotron x-ray fields.
Identifieur interne : 002238 ( Main/Curation ); précédent : 002237; suivant : 002239Characterization of a synthetic single crystal diamond detector for dosimetry in spatially fractionated synchrotron x-ray fields.
Auteurs : Jayde Livingstone [Australie] ; Andrew W. Stevenson [Australie] ; Duncan J. Butler [Australie] ; Daniel H Usermann [Australie] ; Jean-François Adam [France]Source :
- Medical physics [ 2473-4209 ] ; 2016.
Descripteurs français
- KwdFr :
- MESH :
English descriptors
- KwdEn :
- MESH :
- chemical : Water.
- instrumentation : Radiometry, Radiotherapy.
- methods : Radiometry, Radiotherapy.
- Calibration, Equipment Design, Linear Models, Photons, Synchrotrons, X-Rays.
Abstract
Modern radiotherapy modalities often use small or nonstandard fields to ensure highly localized and precise dose delivery, challenging conventional clinical dosimetry protocols. The emergence of preclinical spatially fractionated synchrotron radiotherapies with high dose-rate, sub-millimetric parallel kilovoltage x-ray beams, has pushed clinical dosimetry to its limit. A commercially available synthetic single crystal diamond detector designed for small field dosimetry has been characterized to assess its potential as a dosimeter for synchrotron microbeam and minibeam radiotherapy.
DOI: 10.1118/1.4953833
PubMed: 27370143
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pubmed:27370143Le document en format XML
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<front><div type="abstract" xml:lang="en">Modern radiotherapy modalities often use small or nonstandard fields to ensure highly localized and precise dose delivery, challenging conventional clinical dosimetry protocols. The emergence of preclinical spatially fractionated synchrotron radiotherapies with high dose-rate, sub-millimetric parallel kilovoltage x-ray beams, has pushed clinical dosimetry to its limit. A commercially available synthetic single crystal diamond detector designed for small field dosimetry has been characterized to assess its potential as a dosimeter for synchrotron microbeam and minibeam radiotherapy.</div>
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