Open Access
16th International Congress of Metrology
Numéro d'article 05008
Nombre de pages 4
Section Dosimétrie et Radiothérapie et Santé / Dosimetry and Radiotherapy & Health
Publié en ligne 7 octobre 2013
  • R. Broda et al., “Radionuclide metrology using liquid scintillation counting”, Metrologia, vol. 44, pp. 36–52, 2007. [Google Scholar]
  • K. Kossert, “Activity standardization by means of a new TDCR-Cerenkov counting technique”, App. Radiat. and Isot., vol. 68, pp. 1116–1120, 2010. [Google Scholar]
  • S. Agostinelli et al., “Geant4 - a simulation toolkit”, Nuclear Instruments and Methods, vol. 506, pp. 250–303, 2003. [CrossRef] [Google Scholar]
  • C. Bobin et al., “Application of a stochastic TDCR model based on Geant4 for Cerenkov primary measurements”, App. Radiat. and Isot., vol. 68, pp. 2366–2371, 2010. [Google Scholar]
  • J. Bouchard, P. Cassette, “MAC3: an electronic module for the processing of pulses delivered by a three photomultiplier LS counting system. Appl. Radiat. Isot. 52, 669–672, 2000. [CrossRef] [PubMed] [Google Scholar]
  • C. Thiam et al., “Radiopharmaceutical 11C activity measurements by means of the TDCRCerenkov method based on a Geant4 stochastic modeling”, LSC-2010 Conference, pp. 341–348. [Google Scholar]
  • S.W. Harmer et al., “Variation in optical constants between photocathodes”, Nucl. Instrum. Meth. A 564:439–450, 2006. [CrossRef] [Google Scholar]
  • D. Motta, S. Schönert, “Optical properties of bialkali photocathodes”. Nucl. Instrum. Meth. A 539:217–235, 2005. [CrossRef] [Google Scholar]
  • C. Bobin et al., “On the stochastic dependence between photomultipliers in the TDCR method”, App. Radiat. Isot., vol. 70, pp. 770–780, 2012. [CrossRef] [Google Scholar]