Cross Section Measurements of Large Angle Fragments Production in the   Interaction of Carbon Ion Beams with Thin Targets

The FOOT Collaboration: Y. Dong (1); I. Mattei (1); A. Alexandrov (2),; B. Alpat (3); G. Ambrosi (3); S. Argir\`o (4; 5); M. Barbanera (3); N.; Bartosik (5); G. Battistoni (1); M.G. Bisogni (6; 7); V. Boccia (2; 8),; F. Cavanna (5); P. Cerello (5); E. Ciarrocchi (6; 7); A. De Gregorio (9; and 10); G. De Lellis (2; 8); A. Di Crescenzo (2; 8); B. Di Ruzza (11; and 12); M. Dondi (13; 14); M. Donetti (5; 15); M. Durante (8; 16),; R. Faccini (9; 10); V. Ferrero (5); C. Finck (17); E. Fiorina (5); M.; Francesconi (2); M. Franchini (13; 14); G. Franciosini (10; 18); G.; Galati (19; 12); L. Galli (7); M. Ionica (3); A. Iuliano (2; 8); K.; Kanxheri (3; 20); A.C. Kraan (7); C. La Tessa (21; 22); A. Lauria (2; and 8); E. Lopez Torres (5; 23); M. Magi (10; 18); A. Manna (13 and; 14); M. Marafini (10; 24); M. Massa (7); C. Massimi (13; 14); A.; Mengarelli (13); A. Mereghetti (15); T. Minniti (25; 26); A. Moggi (7),; M.C. Montesi (2; 27); M.C. Morone (25; 26); M. Morrocchi (6; 7); S.; Muraro (1); N. Pastrone (5); V. Patera (10; 18); F. Peverini (3; 20),; F. Pennazio (5); C. Pisanti (13; 14); P. Placidi (3; 28); M. Pullia; (15); L. Ramello (5; 29); C. Reidel (16); R. Ridolfi (13; 14); L.; Sabatini (30); L. Salvi (3; 20); C. Sanelli (30); O. Sato (31); S. Savazzi; (15); L. Scavarda (31); A. Schiavi (10; 17); C. Schuy (15); E. Scifoni; (21); L. Servoli (3); G. Silvestre (3); M. Sitta (5; 32); R. Spighi (12),; E. Spiriti (29); L. Testa (9; 10); V. Tioukov (2); S. Tomassini (30); F.; Tommasino (21; 34); M. Toppi (10; 18); A. Trigilio (30); G. Traini; (10); G. Ubaldi (13; 14); A. Valetti (4; 5); M. Vanstalle (17); M.; Villa (13; 14); U. Weber (16); R. Zarrella (13; 14); A. Zoccoli (13 and; 14); A. Sarti (10; 18) ((1) INFN Section of Milano; Milano; Italy; (2); INFN Section of Napoli; Napoli; Italy; (3) INFN Section of Perugia; Perugia,; Italy; (4) University of Torino; Department of Physics; Torino; Italy; (5); INFN Section of Torino; Torino; Italy; (6) University of Pisa; Department of; Physics; Pisa; Italy; (7) INFN Section of Pisa; Pisa; Italy; (8) University; of Napoli; Department of Physics "E. Pancini"; Napoli; Italy; (9) University; of Rome La Sapienza; Department of Physics; Rome; Italy; (10) INFN Section of; Roma 1; Rome; Italy; (11) University of Foggia; Foggia; Italy; (12) INFN; Section of Bari; Bari; Italy; (13) INFN Section of Bologna; Bologna; Italy,; (14) University of Bologna; Department of Physics; Astronomy; Bologna,; Italy; (15) CNAO Centro Nazionale di Adroterapia Oncologica; Pavia; Italy,; (16) Biophysics Department; GSI Helmholtzzentrum f\"ur Schwerionenforschung,; Darmstadt; Germany; (17) Universit\'e de Strasbourg; CNRS; IPHC UMR 7871,; F-67000 Strasbourg; France; (18) University of Rome La Sapienza; Department; of Scienze di Base e Applicate per l'Ingegneria (SBAI); Rome; Italy; (19); University of Bari; Department of Physics; Bari Italy; (20) University of; Perugia; Department of Physics; Geology; Perugia; Italy; (21) University; of Miami; Radiation Oncology; Miami; FL; United States; (22) Trento Institute; for Fundamental Physics; Applications; Istituto Nazionale di Fisica; Nucleare (TIFPA-INFN); Trento; Italy; (23) CEADEN; Centro de Aplicaciones; Tecnologicas y Desarrollo Nuclear; Havana; Cuba; (24) Museo Storico della; Fisica e Centro Studi e Ricerche Enrico Fermi; Rome; Italy; (25) University; of Rome Tor Vergata; Department of Physics; Rome; Italy; (26) INFN Section of; Roma Tor Vergata; Rome; Italy; (27) University of Napoli; Department of; Chemistry; Napoli; Italy; (28) University of Perugia; Department of; Engineering; Perugia; Italy; (29) University of Piemonte Orientale,; Department for Sustainable Development; Ecological Transition; Vercelli,; Italy; (30) INFN Laboratori Nazionali di Frascati; Frascati; Italy; (31); Nagoya University; Department of Physics; Nagoya; Japan; (32) ALTEC,; Aerospace Logistic Technology Engineering Company; Corso Marche 79; 10146; Torino; Italy; (33) University of Piemonte Orientale; Department of Science; and Technological Innovation; Alessandria; Italy; (34) University of Trento,; Department of Physics; Trento; Italy)

arXiv:2501.04392·nucl-ex·January 9, 2025

Cross Section Measurements of Large Angle Fragments Production in the Interaction of Carbon Ion Beams with Thin Targets

The FOOT Collaboration: Y. Dong (1), I. Mattei (1), A. Alexandrov (2),, B. Alpat (3), G. Ambrosi (3), S. Argir\`o (4, 5), M. Barbanera (3), N., Bartosik (5), G. Battistoni (1), M.G. Bisogni (6, 7), V. Boccia (2, 8),, F. Cavanna (5), P. Cerello (5), E. Ciarrocchi (6, 7)

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TL;DR

This study measures the fragmentation cross sections of carbon ion beams on thin targets at specific angles, refining previous analyses and validating results with Monte Carlo simulations to improve understanding for particle therapy applications.

Contribution

The paper presents a reanalysis of carbon ion fragmentation data with improved methods, providing more accurate cross sections and validation against FLUKA Monte Carlo calculations.

Findings

01

Refined fragmentation cross sections for carbon ions on various targets.

02

Validation of new analysis strategy with Monte Carlo simulations.

03

Detailed kinetic energy distributions of produced fragments.

Abstract

The fragmentation cross sections of carbon ion beams with kinetic energies of $115 - 353 MeV/u$ impinging on thin targets of graphite (C), polyvinyl-toluene (C $_{9}$ H $_{10}$ ) and PMMA (C $_{2}$ O $_{5}$ H $_{8}$ ) have been measured at 90 $^{o}$ and 60 $^{o}$ 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…

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