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1.
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Explorative Studies of an Innovative Superconducting Gantry
/ Pullia, M G (CNAO, Milan) ; Donetti, M (CNAO, Milan) ; Felcini, E (CNAO, Milan) ; Frisella, G (CNAO, Milan) ; Mereghetti, A (CNAO, Milan) ; Mirandola, A (CNAO, Milan) ; Pella, A (CNAO, Milan) ; Savazzi, S (CNAO, Milan) ; Dassa, L (CERN) ; Karppinen, M (CERN) et al.
The Heavy Ion Therapy Research Integration plus (HITRIplus) is a European project that aims to integrate and propel research and technologies related to cancer treatment with heavy ions beams. Among the ambitious goals of the project, a specific work package includes the design of a gantry for carbon ions, based on superconducting magnets. [...]
2022 - 4 p.
- Published in : JACoW IPAC 2022 (2022) 2966-2969
Fulltext: PDF;
In : 13th International Particle Accelerator Conference (IPAC 2022), Bangkok, Thailand, 12 - 17 Jun 2022, pp.2966-2969
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2.
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Measurement of $^{12}$C Fragmentation Cross Sections on C, O, and H in the Energy Range of Interest for Particle Therapy Applications
/ Mattei, I ; Alexandrov, A ; Alunni Solestizi, L ; Ambrosi, G ; Argiro, S ; Bartosik, N ; Battistoni, G ; Belcari, N ; Biondi, S ; Bisogni, M G et al.
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. [...]
2020 - 14 p.
- Published in : IEEE Trans. Rad. Plasma Med. Sci. 4 (2020) 269-282
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3.
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Ion charge separation with new generation of nuclear emulsion films
/ Montesi, M.C. (Naples U. ; INFN, Naples) ; Lauria, A. (Naples U. ; INFN, Naples) ; Alexandrov, A. (INFN, Naples ; Naples U. ; Natl. U. Sci. Tech., Moscow ; Lebedev Inst.) ; Solestizi, L. Alunni (INFN, Perugia ; Perugia U.) ; Giovanni, Ambrosi (INFN, Perugia) ; Argirò, S. (Turin U. ; INFN, Turin) ; Diaz, R. (Havana, CEADEN) ; Bartosik, N. (INFN, Turin) ; Battistoni, G. (INFN, Milan) ; Belcari, N. (Pisa U. ; INFN, Pisa) et al.
In hadron therapy, the accelerated ions, interacting with the body of the patient, cause the fragmentation of both projectile and target nuclei. The fragments interact with the human tissues depositing energy both in the entrance channel and in the volume surrounding the tumor. [...]
2019 - 8 p.
- Published in : Open Physics 17 (2019) 233-240
Fulltext: PDF;
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4.
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The FOOT FragmentatiOn Of Target Experiment
/ Alexandrov, Andrey (INFN, Naples) ; Alpat, Behcet (INFN, Perugia) ; Ambrosi, Giovanni (INFN, Perugia) ; Argirò, Stefano (Turin U. ; INFN, Turin) ; Battistoni, Giuseppe (INFN, Milan) ; Bisogni, Maria Giuseppina (Pisa U. ; INFN, Pisa) ; Belcari, Nicola (Pisa U. ; INFN, Pisa) ; Biondi, Silvia (INFN, Bologna ; Bologna U.) ; Bruni, Graziano (INFN, Bologna) ; Camarlinghi, Niccolò (Pisa U. ; INFN, Pisa) et al.
In proton-therapy clinical practice a constant RBE equal to 1.1 is adopted, regardless of the demonstrated RBE variations, which depends on physical and biological parameters. Among other mechanisms, nuclear interactions might influence the proton-RBE due to secondary heavier particles produced by target fragmentation that can significantly contribute to the total dose: an un-wanted and undetermined increase of normal tissues complications probability may occur. [...]
Geneva : CERN, 2019 - 8 p.
- Published in : CERN Proc.: 1 (2019) , pp. 305-312
Fulltext: PDF;
In : 15th International Conference on Nuclear Reaction Mechanisms, Varenna, Italy, 11 - 15 Jun 2018, pp.305-312
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5.
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6.
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Performances of the scanning system for the CNAO center of oncological hadron therapy
/ Giordanengo, S (INFN, Turin) ; Donetti, M (INFN, Turin ; CNAO, Milan) ; Attili, A (INFN, Turin) ; Pardo, J (INFN, Turin) ; Russo, G (INFN, Turin ; Turin U.) ; Taddia, G (OCEM, Bologna) ; Monaco, V (INFN, Turin ; Turin U.) ; Garella, M A (INFN, Turin) ; Zampieri, A (INFN, Turin) ; Fabbricatore, P (INFN, Genoa) et al.
In hadron therapy one of the most advanced methods for beam delivery is the active scanning technique which uses fast scanning magnets to drive a narrow particle beam across the target. The Centro Nazionale di Adroterapia Oncologica (CNAO) will treat tumours with this technique. [...]
2010
- Published in : Nucl. Instrum. Methods Phys. Res., A 613 (2010) 317-322
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7.
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Measurements on an A/D Interface Used in the Power Supply Control System of the Main Dipoles of CNAO
/ Franzini, G (Frascati) ; Donetti, M (CNAO, Milan) ; Pellegrini, D (Frascati) ; Pezzetta, M (CNAO, Milan) ; Pullia, M (CNAO, Milan) ; Serio, M (Frascati) ; Stella, A (Frascati)
2008 - 3 p.
External link: Published version from JACoW
In : 11th European Particle Accelerator Conference, Genoa, Italy, 23 - 27 Jun 2008, pp.THPP120
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8.
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Fast High-Power Power Supply for Scanning Magnets of CNAO Accelerator
/ Incurvati, M ; Burini, F (IASF, Bologna) ; De Cesaris, I (Frascati) ; Donetti, M (CNAO, Milan) ; Farioli, M F (IASF, Bologna) ; Giordanengo, S (INFN, Turin) ; Marchetto, Flavio Pietro (INFN, Turin) ; Sanelli, C (Frascati) ; Taddia, G (IASF, Bologna) ; Toncelli, S (CNAO, Milan) et al.
2008 - 3 p.
External link: Published version from JACoW
In : 11th European Particle Accelerator Conference, Genoa, Italy, 23 - 27 Jun 2008, pp.THPP122
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