The proton Computed Tomography (pCT) is a medical imaging method, based on the use of proton beams with kinetic energy of the order of 250 MeV, aimed to directly measure the stopping power distribution of tissues thus improving the present accuracy of treatment planning in hadron therapy. A pCT system should be capable to measure tissue electron density with an accuracy better than 1% and a spatial resolution better than 1 mm. The blurring eect due to multiple Coulomb scattering can be mitigated by single proton tracking technique. As a rst step towards pCT the Prima+ collaboration built a prototype capable to carry out a single radiography and a tomographic image of a rotating object. This apparatus includes a silicon microstrip tracker to identify the proton trajectory and a YAG:Ce calorimeter to measure the particle residual energy.

PRIMA+: A proton Computed Tomography apparatus / C. Civinini; M. Bruzzi; M. Bucciolini; G.A.P. Cirrone; G. Cuttone; D. Lo Presti; S. Pallotta; N. Randazzo; M. Scaringella; V. Sipala; C. Stancampiano; C. Talamonti; M. Tesi; E. Vanzi; M. Zani. - In: IL NUOVO CIMENTO C. - ISSN 2037-4909. - ELETTRONICO. - 36:(2013), pp. 73-77.

PRIMA+: A proton Computed Tomography apparatus

BRUZZI, MARA;BUCCIOLINI, MARTA;PALLOTTA, STEFANIA;SCARINGELLA, MONICA;TALAMONTI, CINZIA;ZANI, MARGHERITA
2013

Abstract

The proton Computed Tomography (pCT) is a medical imaging method, based on the use of proton beams with kinetic energy of the order of 250 MeV, aimed to directly measure the stopping power distribution of tissues thus improving the present accuracy of treatment planning in hadron therapy. A pCT system should be capable to measure tissue electron density with an accuracy better than 1% and a spatial resolution better than 1 mm. The blurring eect due to multiple Coulomb scattering can be mitigated by single proton tracking technique. As a rst step towards pCT the Prima+ collaboration built a prototype capable to carry out a single radiography and a tomographic image of a rotating object. This apparatus includes a silicon microstrip tracker to identify the proton trajectory and a YAG:Ce calorimeter to measure the particle residual energy.
2013
36
73
77
C. Civinini; M. Bruzzi; M. Bucciolini; G.A.P. Cirrone; G. Cuttone; D. Lo Presti; S. Pallotta; N. Randazzo; M. Scaringella; V. Sipala; C. Stancampiano; C. Talamonti; M. Tesi; E. Vanzi; M. Zani
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/815032
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