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Autori principali: Şerban, Alexandra-Gabriela, González, Juan Alejandro de la Torre, Anguiano, Marta, Lallena, Antonio M., Salvat-Pujol, Francesc
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.18314
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author Şerban, Alexandra-Gabriela
González, Juan Alejandro de la Torre
Anguiano, Marta
Lallena, Antonio M.
Salvat-Pujol, Francesc
author_facet Şerban, Alexandra-Gabriela
González, Juan Alejandro de la Torre
Anguiano, Marta
Lallena, Antonio M.
Salvat-Pujol, Francesc
contents A new model for the nuclear elastic scattering of protons below 250 MeV has been recently included in FLUKA v4-4.0, motivated by the evaluation of radiation effects in electronics. Nonetheless, proton nuclear elastic scattering plays a significant role also in proton dosimetry applications, for which the new model necessitated an explicit validation. Therefore, in this work a benchmark has been carried out against a recent measurement of radial-depth maps of absorbed dose in a water phantom under irradiation with protons of 100 MeV, 160 MeV, and 225 MeV. Two FLUKA versions have been employed to simulate these dose maps: v4-3.4, relying on a legacy model for proton nuclear elastic scattering, and v4-4.0, relying on the new model. The enhanced agreement with experimental absorbed doses obtained with FLUKA v4-4.0 is discussed, and the role played by proton nuclear elastic scattering, among other interaction mechanisms, in various regions of the radial-depth dose map is elucidated. Finally, the benchmark reported in this work is sensitive enough to showcase the importance of accurately characterizing beam parameters and the scattering geometry for Monte Carlo simulation purposes.
format Preprint
id arxiv_https___arxiv_org_abs_2412_18314
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle On the improved performances of FLUKA v4-4.0 in out-of-field proton dosimetry
Şerban, Alexandra-Gabriela
González, Juan Alejandro de la Torre
Anguiano, Marta
Lallena, Antonio M.
Salvat-Pujol, Francesc
Computational Physics
Medical Physics
A new model for the nuclear elastic scattering of protons below 250 MeV has been recently included in FLUKA v4-4.0, motivated by the evaluation of radiation effects in electronics. Nonetheless, proton nuclear elastic scattering plays a significant role also in proton dosimetry applications, for which the new model necessitated an explicit validation. Therefore, in this work a benchmark has been carried out against a recent measurement of radial-depth maps of absorbed dose in a water phantom under irradiation with protons of 100 MeV, 160 MeV, and 225 MeV. Two FLUKA versions have been employed to simulate these dose maps: v4-3.4, relying on a legacy model for proton nuclear elastic scattering, and v4-4.0, relying on the new model. The enhanced agreement with experimental absorbed doses obtained with FLUKA v4-4.0 is discussed, and the role played by proton nuclear elastic scattering, among other interaction mechanisms, in various regions of the radial-depth dose map is elucidated. Finally, the benchmark reported in this work is sensitive enough to showcase the importance of accurately characterizing beam parameters and the scattering geometry for Monte Carlo simulation purposes.
title On the improved performances of FLUKA v4-4.0 in out-of-field proton dosimetry
topic Computational Physics
Medical Physics
url https://arxiv.org/abs/2412.18314