Characterization of prompt gamma rays for in-vivo range verification in hadron therapy: a geant4 simulation study
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Date
2018-02-06
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Physics Publishing
Abstract
Prompt gamma (PG) rays have been proposed for in-vivo beam range verification during treatment delivery. As a secondary by-product emitted almost instantaneously upon ion-nuclear interaction, PG rays offer real-time tracking of the Bragg peak (BP). However their detection is challenging since they have a broad energy spectrum with interference from neutrons and stray gamma rays. Numerous approaches have been proposed to utilise PG for in-vivo beam range verification. In this work, Geant4 Monte Carlo (MC) simulations have been used to study the spectral, spatial, temporal and angular distribution characteristics of PG emission and detection from hadron radiation fields of varying energy. Proton, 12C and 4He beams irradiated homogeneous water phantoms. These studies will provide valuable information for the development of clinically suitable and reliable PG detector systems. © The Authors. Open Access.
Description
Keywords
In vivo, Bragg curve, Energy, Neutrons, Phantoms, Real time systems, Angular distribution
Citation
Zarifi, M., Guatelli, S., Qi, Y., Bolst, D., Prokopovich, D., & Rosenfeld, A. (2019). Characterization of prompt gamma rays for in-vivo range verification in hadron therapy: a Geant4 simulation study. Paper presented to MMD & ITRO 2018, Mini-Micro-Nano-Dosimetry and Innovative Technologies in Radiation Oncology Workshop, Mantra Mooloolaba-Beach, Queensland, Australia, February 6th-11th 2018. In Journal of Physics: Conference Series, 1154(1), 012030. doi:10.1088/1742-6596/1154/1/012030