Design and modeling of medical linear accelerators using the geant 4/GATE platform /
Soad Mostafa Mohammed Hozayen
Design and modeling of medical linear accelerators using the geant 4/GATE platform / Geant4/GATE تصميم و نمذجة المعجلات الخطية الطبية باستخدام نظام Soad Mostafa Mohammed Hozayen ; Supervised Hoda Abou-Shady , Hassan Fathy Ibrahim - Cairo : Soad Mostafa Mohammed Hozayen , 2018 - 160 P. : facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Physics
The aim of this research is to investigate the use of GATE, the monte Carlo simulation application based on Geant 4 toolkit to estimate the percent depth doses and dose Off-Axis Ratios of a novel medical linear accelerator for photon mode field sizes 55, 1010, 2020, 3030 and 4040 cm² and also for electron mode field sizes 55, 1010, 1515 and 2020 cm² at the isocenter. A model for the 605040.75 cm³ PTW MP3 water phantom was used in the simulations. Firstly, verification of the dose calculations of two medical linacs: Siemens ONCOR for field sizes 1010, 2020 and 3030 cm² and varian 600C for field sizes 33, 66 and 9.89.8 cm² using 6 MeV electron beam, were confirmed
Linear accelerator Photon and electron mode Radiotherapy
Design and modeling of medical linear accelerators using the geant 4/GATE platform / Geant4/GATE تصميم و نمذجة المعجلات الخطية الطبية باستخدام نظام Soad Mostafa Mohammed Hozayen ; Supervised Hoda Abou-Shady , Hassan Fathy Ibrahim - Cairo : Soad Mostafa Mohammed Hozayen , 2018 - 160 P. : facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Physics
The aim of this research is to investigate the use of GATE, the monte Carlo simulation application based on Geant 4 toolkit to estimate the percent depth doses and dose Off-Axis Ratios of a novel medical linear accelerator for photon mode field sizes 55, 1010, 2020, 3030 and 4040 cm² and also for electron mode field sizes 55, 1010, 1515 and 2020 cm² at the isocenter. A model for the 605040.75 cm³ PTW MP3 water phantom was used in the simulations. Firstly, verification of the dose calculations of two medical linacs: Siemens ONCOR for field sizes 1010, 2020 and 3030 cm² and varian 600C for field sizes 33, 66 and 9.89.8 cm² using 6 MeV electron beam, were confirmed
Linear accelerator Photon and electron mode Radiotherapy