From left to right: Kyle O'Grady, Lalageh Mirzakhanian, Pete Watson, Shirin Enger, Yana Zlateva, FernandoÌýParois Japiassú, Susannah Hickling, James Renaud, Allison Toltz, Jan Seuntjens
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Dosimetry is crucial in all stages of the radiotherapy process to ensure patients are receiving the correct dose to the intended anatomy. Work in this department aims to improve the accuracy of existing dosimetry methods and develop novel techniques. This includes research in the areas of radiation beam calibration, accurate measurement of non-standard treatment fields, in vivo dosimetry techniques and Monte Carlo radiation transport simulations.
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Recent publications
- Watson P, Mainegra-Hing E,ÌýTomic N,ÌýSeuntjens JÌý(2015).ÌýImplementation of an efficient Monte Carlo calculation for CBCT scatter correction: phantom study.ÌýJ. Appl. Clin. Med. Phys. 16 (4): 216.
- Papaconstadopoulos P,ÌýHegyi G,ÌýSeuntjens J,ÌýDevic SÌý(2014).ÌýA protocol for EBT3 radiochromic film dosimetry using reflection scanning.ÌýMed. Phys. 41 (12): 122101.
- Papaconstadopoulos P, Tessier F,ÌýSeuntjens JÌý(2014).ÌýOn the correction, perturbation and modification of small field detectors in relative dosimetry.ÌýPhys. Med. Biol. 59 (19): 5937.
- Papaconstadopoulos P,ÌýSeuntjens JÌý(2013).ÌýA source model for modulated electron radiation therapy using dynamic jaw movements.ÌýMed. Phys. 40 (5): 051707.
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