Abstract

International audienceThe fragmentation cross sections of carbon ion beams with kinetic energies of 115353 MeV/u115 - 353~\text{MeV/u} impinging on thin targets of graphite (C), polyvinyl-toluene (C9_9H10_{10}) and PMMA (C2_2O5_5H8_8) have been measured at 90o^{\text{o}} and 60o^{\text{o}} at the CNAO particle therapy center (Pavia, Italy). The presented measurements are a complete reanalysis by the FOOT collaboration of already published elemental cross section on composite targets, in order to refine the analysis, improve the systematic uncertainties and show the comparison with the FLUKA Monte Carlo code calculations. In this work, the kinetic energy at production of measured fragments has been completely redefined, together with the efficiencies computation. The new analysis strategy has been successfully validated against the Monte Carlo cross sections. Two detection arms were positioned at two different angles to perform the measurement at 90o^{\text{o}} and 60o^{\text{o}}. The fragment species have been identified in charge (Zid_{id} = H) and mass (Mid_{id} = 1^1H, 2^2H, 3^3H) combining the information of the deposited energy in thin plastic scintillators, of the deposited energy in a thick LYSO crystal and of the fragments Time of Flight (ToF) measurement. The ToF was also used to compute the fragments measured kinetic energy. The cross sections are presented as a function of the fragments kinetic energy at production thanks to an unfolding technique applied to the data

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HAL-IN2P3

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Last time updated on 28/02/2025

This paper was published in HAL-IN2P3.

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