New solid-state detectors, based on chemical vapour deposited (CVD) polycrystal- line diamonds produced by hot-filament (HF) or microwave plasma (MW) assisted deposition methods, were constructed for radiation therapy dosimetry. Properties of diamond crystals, such as high radiation sensitivity, resistance to radiation damage and tissue-equivalence giving a low-energy dependence are very advantageous for clinical dosimetry. Therefore the encap- sulation was specially designed for these detectors to have as little influence as possible on the radiation response. The prototypes were irradiated with use of a wide range of photon beam qualities ( 60 Co g-rays, 6 and 18 MV X-rays). The radiation sensitivity varied considerably between samples deposited with HF (9 nC Gy 1 mm 3 ) and MW (66 and 144 nC Gy 1 mm 3 ) methods. For all detectors the leakage current was of the order of 10% of the radiation-induced current (bias voltage 100 V, dose rate 0.3 Gy/min). When irradiated with 60 Co g-rays, the detectors showed a dose-rate linearity with an exponen- tial D parameter close to unity. However, a difference of 8% was found between D values for the different beam qualities. A small energy dependence was observed, for which the most probable sources are interface effects due to the silver electrodes and partly the geometry of the encapsulation which needs to be further optimized.
Gorka, B., Nilsson, B., Svensson, R., Brahme, A., Ascarelli, P., Trucchi, D.M., et al. (2008). Design and characterization of a tissue-equivalent CVD-diamond detector for clinical dosimetry in high-energy photon beams. PHYSICA MEDICA, 24, 159-168.
Design and characterization of a tissue-equivalent CVD-diamond detector for clinical dosimetry in high-energy photon beams
CONTE, Gennaro;
2008-01-01
Abstract
New solid-state detectors, based on chemical vapour deposited (CVD) polycrystal- line diamonds produced by hot-filament (HF) or microwave plasma (MW) assisted deposition methods, were constructed for radiation therapy dosimetry. Properties of diamond crystals, such as high radiation sensitivity, resistance to radiation damage and tissue-equivalence giving a low-energy dependence are very advantageous for clinical dosimetry. Therefore the encap- sulation was specially designed for these detectors to have as little influence as possible on the radiation response. The prototypes were irradiated with use of a wide range of photon beam qualities ( 60 Co g-rays, 6 and 18 MV X-rays). The radiation sensitivity varied considerably between samples deposited with HF (9 nC Gy 1 mm 3 ) and MW (66 and 144 nC Gy 1 mm 3 ) methods. For all detectors the leakage current was of the order of 10% of the radiation-induced current (bias voltage 100 V, dose rate 0.3 Gy/min). When irradiated with 60 Co g-rays, the detectors showed a dose-rate linearity with an exponen- tial D parameter close to unity. However, a difference of 8% was found between D values for the different beam qualities. A small energy dependence was observed, for which the most probable sources are interface effects due to the silver electrodes and partly the geometry of the encapsulation which needs to be further optimized.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.