Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8250396 | Radiation Measurements | 2017 | 8 Pages |
Abstract
Electron Linear Accelerators (linacs) used in radiotherapy treatments produce undesired photo-neutrons when they are operated at energies above 10Â MeV. (Neutron Contamination from Medial Electron Accelerators, 1984). These photo-neutrons contaminate the therapeutic beam and increase dose equivalent delivered to patients. In this work, the neutron entrance dose for an 18Â MV Varian Medical linac was measured using passive silicon p-i-n diodes. These detectors were calibrated in separate photon, electron and neutron fields. The silicon p-i-n diode detectors have shown excellent discrimination between fast neutron and photon radiation, with sensitivity to fast neutrons being â4000 times higher than to photons from a 60Co source in terms of absorbed dose to tissue. The neutron tissue absorbed dose was studied both on the surface and inside a cubic solid water phantom, both experimentally and also using Geant4 Monte Carlo simulations. The silicon p-i-n diodes were found to be useful for quick estimation of the fast neutron tissue dose and dose equivalent in pulsed, mixed radiation fields produced by a medical linac.
Keywords
Related Topics
Physical Sciences and Engineering
Physics and Astronomy
Radiation
Authors
Vanja Gracanin, Susanna Guatelli, Dean Cutajar, Iwan Cornelius, Linh T. Tran, David Bolst, Rhys Preston, Rashmi Gupta, Johnson Yuen, Marco Petasecca, Michael Lerch, Vladimir Prevertaylo, Anatoly Rosenfeld,