Title :
Development of hydrogenated amorphous silicon sensors for high energy photon radiotherapy imaging
Author :
Antonuk, L.E. ; Yorkston, J. ; Boudry, J. ; Longo, M.J. ; Jimenez, J. ; Street, R.A.
Author_Institution :
Dept. of Radiat. Oncology, Michigan Univ., MI, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
Measurements with a-Si:H n-i-p photodiodes with sensitive areas of ~0.6 mm2 exposed to a 6 MV radiation therapy treatment beam have been performed. Such photodiodes can be configured into large two-dimensional arrays of addressable sensors suitable for real-time imaging of megavoltage treatment beams as well as other applications such as diagnostic X-ray imaging. Signal sizes per radiation pulse up to 3.9×106 and 69×106 electrons are observed when the sensors are used with cronex (CaWO4) and lanex (gadolinium-oxysulfide) intensifying screens, respectively. For the cronex and lanex screens the size of the measured signals can be enhanced by reducing the thickness of the top p-layer, thereby reducing the attenuation of the incident light. However, this is a smaller effect for the lanex screen, which provides substantially more light signal. The variation in cronex signal size with p-layer thickness is consistent with calculations based on known attenuation coefficients
Keywords :
X-ray detection and measurement; amorphous semiconductors; biomedical equipment; elemental semiconductors; semiconductor counters; silicon; Si:H; addressable sensors; amorphous semiconductor; attenuation coefficients; cronex; diagnostic X-ray imaging; intensifying screens; lanex; megavoltage treatment beams; n-i-p photodiodes; radiation therapy treatment beam; real-time imaging; Amorphous silicon; Area measurement; Biomedical applications of radiation; Image sensors; Optical attenuators; Optical imaging; Performance evaluation; Photodiodes; Sensor arrays; X-ray imaging;
Journal_Title :
Nuclear Science, IEEE Transactions on
