Temperature dependence of the Al 2O 3:C response in medical luminescence dosimetry

Abstract

Over the last years, attention has been given to applications of Al 2O 3:C in space and medical dosimetry. One such application is in vivo dose verification in radiotherapy of cancer patients and here we investigate the temperature effects on the radioluminescence (RL) and optically stimulated luminescence (OSL) signals in the room-to-body temperature region. We found that the OSL response changes with both irradiation and stimulation temperatures as well as the OSL integration time. We conclude that temperature effects on the OSL response can be removed by integration if the irradiation temperature is not varied. The RL response only depends on the irradiation temperature. We recommend that calibration should be carried out at the same irradiation temperature at which the measurement is performed (i.e. at body temperature for in vivo measurements). The overall change in the integrated OSL and RL signals with irradiation and stimulation temperature covers an interval from - 0.2 % to 0.6% per ∘ C . This indicates the correction factor one must take into account when performing luminescence dosimetry at different temperatures. The same effects were observed regardless of crystal type, test doses and stimulation and detection wavelengths. The reported temperature dependence seems to be a general property of Al 2O 3:C.