Recent advances in dosimetry using the optically stimulated luminescence of Al2O3:C

doi:10.1093/rpd/nch302

Radiation Protection Dosimetry 2004 109(4):269-276; doi:10.1093/rpd/nch302

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Invited Paper

Recent advances in dosimetry using the optically stimulated luminescence of Al₂O₃:C

Stephen W. S. McKeever^*, Michael W. Blair, Enver Bulur, Razvan Gaza, Ramona Gaza, Regina Kalchgruber, David M. Klein and Eduardo G. Yukihara

Department of Physics, Oklahoma State University, Stillwater, OK 74078, USA

^* Corresponding author: swsm{at}okstate.edu

This paper presents an overview of some very recent developmentsin optically stimulated luminescence (OSL) dosimetry using aluminiumoxide (Al₂O₃:C), with special emphasis given to the work ofthe research group at Oklahoma State University. Some of theadvances are: (i) the development of a real-time optical fibresystem for in vivo dosimetry applied to radiotherapy; (ii) thedevelopment of a fibre dosimetry system for remote detectionof radiological contaminants in soil; (iii) the characterisationof Al₂O₃:C in heavy charged particle fields and the study ofionisation density dependence of the OSL from Al₂O₃:C; and (iv)fast and separate assessment of beta and gamma components ofthe natural dose rate in natural sediments. These achievementshighlight the versatility of the OSL technique associated withthe high-sensitivity of Al₂O₃:C for the development of new dosimetryapplications.

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