Geant4 simulation of the ELIMED transport and dosimetry beam line for high-energy laser-driven ion beam multidisciplinary applications

Abstract

The ELIMED (MEDical and multidisciplinary application at ELI-Beamlines) beam line is being developed at INFN-LNS with the aim of transporting and selecting in energy proton and ion beams accelerated by laser–matter interaction at ELI-Beamlines in Prague. It will be a section of the ELIMAIA (ELI Multidisciplinary Applications of laser-Ion Acceleration) beam line, dedicated to applications, including the medical one, of laser-accelerated ion beams (Margarone et al., 2013) [1]; (Cirrone et al., 2015) [2]. A Monte Carlo model has been developed to support the design of the beam line in terms of particle transport efficiency, to optimize the transport parameters at the irradiation point in air and, furthermore, to predict beam parameters in order to deliver dose distributions of clinical relevance. The application has been developed using the Geant4 (Agostinelli et al., 2013) [3] Monte Carlo toolkit and has been designed in a modular way in order to easily switch on/off geometrical components according to different experimental setups and user’s requirements, as reported in Pipek et al. (2017) [4], describing the early-stage code and simulations. The application has been delivered to ELI-Beamlines and will be available for future ELIMAIA’s users as ready-to-use tool useful during experiment preparation and analysis. The final version of the developed application will be described in detail in this contribution, together with the final results, in terms of energy spectra and transmission efficiency along the in-vacuum beam line, obtained by performing end-to-end simulations.