Measurements of Photon Beam Flattening Filter Using an Anisotropic Analytical Algorithm and Electron Beam Employing Electron Monte Carlo

Authors

  • Abdelouahed Chetaine Nuclear reactor, nuclear security and environment group, Physics Department, Faculty of Sciences, Mohamed V University, Rabat, Morocco
  • Fatima zohra ERRADI Nuclear reactor, nuclear security and environment group, Physics Department, Faculty of Sciences, Mohamed V University, Rabat, Morocco
  • kamal Saidi Physics Department, Faculty of sciences, Mohamed V university, Rabat, Morocco
  • mohammed el adnani krabch Nuclear reactor, nuclear security and environment group, Physics Department, Faculty of Sciences, Mohamed V University, Rabat, Morocco & Sheikh Khalifa Ibn Zaid Hospital
  • Redouane El Baydaoui Laboratory of technology and medical science, unity of biomedical instrumentation and medical physics, Higher Institute of Health Sciences; University Hassan I.
  • yassine benkhouya Physics Department,Faculty of sciences, Mohamed V university, Rabat, Morocco.
Abstract:

  Introduction: This study aimed to report the measurement of photon and electron beams to configure the Analytical Anisotropic Algorithm and Electron Monte Carlo used in clinical treatment. Material and Methods: All measurements were performed in a large water phantom using a 3-dimensional scanning system (PTW, Germany). For photon beams, the data were measured with a 0.125cc cylindrical chamber. For electron, the data were performed with a Roos chamber. Results: In photon beams, flatness and symmetry for reference field size 10×10cm2 were within the tolerance intervals. Flatness were 0.79% and 1.55% for X6MV and X18MV, respectively. Symmetry were 0.57 and 0.25 for X6MV and X18MV, respectively. The output factor vary between 0.83 and 1.11 for X6MV. Moreover, it varies between 0.74 and 1.09 for X18MV. The leaf transmission factors were 0.97% for X6MV and1.14% for X18MV. The DLG were 1.31 and 1.34 for X6MV and X18MV, respectively. For electron beams, the quality index R50 for applicator 15×15cm2 were in the tolerance. Maximum depth dose for 6, 9, 12, 16 and 20MeV were 1.2, 1.9, 2.7, 2.99 and 2.4cm, respectively. Bremsstrahlung tail were 6MeV–2.86cm, 9MeV–4.32cm, 12MeV–5.96cm, 16MeV–7.93cm, and 20MeV–10.08cm per energy levels. Conclusion: The obtained results and international recommendations were in a good agrement

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Journal title

volume 16  issue 3

pages  200- 209

publication date 2019-05-01

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