Transmission type detectors can provide a measure of the energy fluence and if they are real-time systems that do not significantly attenuate the radiation beam have a distinct advantage over the current method as Quality Assurance (QA) could in principle be done during the actual patient treatment. The use of diode arrays in QA holds much promise due to real-time operation and feedback when compared to other methods e.g. films which are not real-time. The goal of this work is to describe the characterization of the radiation response of a silicon diode array called the Magic Plate (MP) when operated in transmission mode (MPTM). The response linearity of MPTM was excellent (R2=1). When the MP was placed in linac block tray position; the change in PDD at phantom surface (SSD 100 cm) for a 10 × 10 cm2 was -0.037 %, -0.178 % and -0.949 % for 6 MV, 10 MV and 18 MV beams. Therefore, MP does not provide a significant increase in skin dose to the patient and the percentage depth doses showed an excellent agreement with and without MPTM for 6 MV, 10 MV and 18 MV beams.
History
Citation
Alrowaili, Z. A., Lerch, M., Petasecca, M., Carolan, M. & Rosenfeld, A. (2017). Effect of scattered electrons on the 'Magic Plate' transmission array detector response. Journal of Physics: Conference Series, 777 (1), 012033-1-012033-4.
Journal title
MICRO-MINI & NANO-DOSIMETRY & INNOVATIVE TECHNOLOGIES IN RADIATION THERAPY (MMND&ITRO2016)