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Article
Title Measurement of $^{12}$C Fragmentation Cross Sections on C, O, and H in the Energy Range of Interest for Particle Therapy Applications
Author(s) Mattei, I ; Alexandrov, A ; Alunni Solestizi, L ; Ambrosi, G ; Argiro, S ; Bartosik, N ; Battistoni, G ; Belcari, N ; Biondi, S ; Bisogni, M G ; Bruni, G ; Camarlinghi, N ; Carra, P ; Catanzani, E ; Ciarrocchi, E ; Cerello, P ; Clozza, A ; Colombi, S ; De Lellis, G (CERN) ; Del Guerra, A ; De Simoni, M ; Di Crescenzo, A ; Donetti, M ; Dong, Y ; Durante, M ; Embriaco, A ; Emde, M ; Faccini, R ; Ferrero, V ; Ferroni, F ; Fiandrini, E ; Finck, C ; Fiorina, E ; Fischetti, M ; Francesconi, M ; Franchini, M ; Galli, L ; Gentile, V ; Hetzel, R ; Hild, S ; Iarocci, E ; Ionica, M ; Kanxheri, K ; Kraan, A C ; Lante, V ; Lauria, A ; La Tessa, C ; Lopez Torres, E ; Massimi, C ; Marafini, M ; Mengarelli, A ; Mirabelli, R ; Montesi, M C ; Morone, M C ; Morrocchi, M ; Muraro, S ; Narici, L ; Pastore, A ; Pastrone, N ; Patera, V ; Pennazio, F ; Placidi, P ; Pullia, M ; Ramello, L ; Ridolfi, R ; Rosso, V ; Rovituso, M ; Sanelli, C ; Sartorelli, G ; Sato, O ; Savazzi, S ; Scavarda, L ; Schiavi, A ; Schuy, C ; Scifoni, E ; Sciubba, A ; Secher, A ; Selvi, M ; Servoli, L ; Silvestre, G ; Sitta, M ; Spighi, R ; Spiriti, E ; Sportelli, G ; Stahl, A ; Tomassini, S ; Tommasino, F ; Traini, G ; Toppi, M ; Valeri, T ; Valle, S M ; Vanstalle, M ; Villa, M ; Weber, U ; Zoccoli, A ; Sarti, A
Publication 2020
Number of pages 14
In: IEEE Trans. Rad. Plasma Med. Sci. 4 (2020) 269-282
DOI 10.1109/trpms.2020.2972197
Subject category Health Physics and Radiation Effects
Abstract In a carbon ion treatment the nuclear fragmentation of both target and beam projectiles impacts on the dose released on the tumor and on the surrounding healthy tissues. Carbon ion fragmentation occurring inside the patient body has to be studied in order to take into account this contribution. These data are also important for the development of the range monitoring techniques with charged particles. The production of charged fragments generated by carbon ion beams of 115-353 MeV/u kinetic energy impinging on carbon, oxygen, and hydrogen targets has been measured at the CNAO particle therapy center (Pavia, Italy). The use of thin targets of graphite (C), PMMA (C$_2$O$_5$H$_8$) and polyvinyl-toluene [plastic scintillator (PS), CbHa] allowed to measure fragments production cross sections, exploiting a time-of-flight (ToF) technique. PS detectors have been used to perform the ToF measurements, while LYSO crystals have been used for the deposited energy measurement and to perform particle identification. Cross sections have been measured at 90° and 60° with respect to the beam direction. The measured proton, deuteron, and triton differential production cross sections on C, O, and H, obtained exploiting the target subtraction strategy, are presented here as a function of the fragment kinetic energy.
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 記錄創建於2022-02-15,最後更新在2022-10-31