2019
DOI: 10.1002/mp.13472
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Evaluation of electromagnetic and nuclear scattering models in GATE/Geant4 for proton therapy

Abstract: PurposeThe dose core of a proton pencil beam (PB) is enveloped by a low dose area reaching several centimeters off the central axis and containing a considerable amount of the dose. Adequate modeling of the different components of the PB profile is, therefore, required for accurate dose calculation. In this study, we experimentally validated one electromagnetic and two nuclear scattering models in GATE/Geant4 for dose calculation of proton beams in the therapeutic energy window (62–252 MeV) with and without ra… Show more

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Cited by 34 publications
(43 citation statements)
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“…Some depth‐dose profile measurements were additionally reproduced: (a) at ISD0 with a Bragg peak chamber having a sensitive electrode diameter of 39.6 mm (PTW type 34073) to evaluate the energy loss from scattering, (b) at ISD0 with a MLIC to fasten constancy checks and (c) at ISD50 to acquire baseline data in non‐isocentric conditions with and without RS. Transverse dose profiles were acquired in water at ISD0 and at ISD50 with RS, using PinPoint ionization chambers (PTW type 31015) for the nuclear halo study; and a micro‐diamond (PTW type TM60019) for the core . Depending on the energy, up to five transverse dose profiles were acquired from entrance to Bragg peak depth.…”
Section: Methodsmentioning
confidence: 99%
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“…Some depth‐dose profile measurements were additionally reproduced: (a) at ISD0 with a Bragg peak chamber having a sensitive electrode diameter of 39.6 mm (PTW type 34073) to evaluate the energy loss from scattering, (b) at ISD0 with a MLIC to fasten constancy checks and (c) at ISD50 to acquire baseline data in non‐isocentric conditions with and without RS. Transverse dose profiles were acquired in water at ISD0 and at ISD50 with RS, using PinPoint ionization chambers (PTW type 31015) for the nuclear halo study; and a micro‐diamond (PTW type TM60019) for the core . Depending on the energy, up to five transverse dose profiles were acquired from entrance to Bragg peak depth.…”
Section: Methodsmentioning
confidence: 99%
“…The contributions of the different field sizes necessary to compute the FSF were then derived by summing‐up the dose contribution of different frames. Output factors acquired in 2D are complementary measurements to the transverse dose profiles acquired in 1D for the validation for electromagnetic and nuclear scattering models …”
Section: Methodsmentioning
confidence: 99%
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“…The GATE/Geant4 package was demonstrated to be a powerful tool for beam modeling and dose calculation in ion beam therapy. [30][31][32][33] Likewise, Geant4 demonstrated high accuracy describing and propagating particle tracks in a variety of electromagnetic fields, regardless their homogeneity. 34 This work aims to develop and validate a GATE/Geant4 MC beam model for clinically relevant proton beams interacting with external heterogeneous magnetic fields up to 1 T. The performance of the model describing the beam optics and the energy spectrum were evaluated using in-depth and lateral dose profiles.…”
Section: Introductionmentioning
confidence: 99%