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A new detector for the beam energy measurement in proton therapy: a feasibility study
Fast procedures for the beam quality assessment and for the monitoring of beam energy modulations during the irradiation are among the most urgent improvements in particle therapy. Indeed, the online measurement of the particle beam energy could allow assessing the range of penetration during treatm...
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| creator | Vignati, A Giordanengo, S F Mas Milian Z Ahmadi Ganjeh Donetti, M Fausti, F Ferrero, M O Hammad Ali Martì Villarreal, O A Mazza, G Shakarami, Z Sola, V Staiano, A Cirio, R Sacchi, R Monaco, V |
| description | Fast procedures for the beam quality assessment and for the monitoring of beam energy modulations during the irradiation are among the most urgent improvements in particle therapy. Indeed, the online measurement of the particle beam energy could allow assessing the range of penetration during treatments, encouraging the development of new dose delivery techniques for moving targets. Towards this end, the proof of concept of a new device, able to measure in a few seconds the energy of clinical proton beams (from 60 to 230 MeV) from the Time of Flight (ToF) of protons, is presented. The prototype consists of two Ultra Fast Silicon Detector (UFSD) pads, featuring an active thickness of 80 um and a sensitive area of 3 x 3 mm2, aligned along the beam direction in a telescope configuration, connected to a broadband amplifier and readout by a digitizer. Measurements were performed at the Centro Nazionale di Adroterapia Oncologica (CNAO, Pavia, Italy), at five different clinical beam energies and four distances between the sensors (from 7 to 97 cm) for each energy. In order to derive the beam energy from the measured average ToF, several systematic effects were considered, Monte Carlo simulations were developed to validate the method and a global fit approach was adopted to calibrate the system. The results were benchmarked against the energy values obtained from the water equivalent depths provided by CNAO. Deviations of few hundreds of keV have been achieved for all considered proton beam energies for both 67 and 97 cm distances between the sensors and few seconds of irradiation were necessary to collect the required statistics. These preliminary results indicate that a telescope of UFSDs could achieve in a few seconds the accuracy required for the clinical application and therefore encourage further investigations towards the improvement and the optimization of the present prototype. |
| doi_str_mv | 10.48550/arxiv.2003.08829 |
| format | article |
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| subjects | Broadband amplifiers Computer simulation Energy Energy measurement Feasibility studies Irradiation Moving targets Optimization Particle beams Proton beams Prototypes Quality assessment Sensors Therapy |
| title | A new detector for the beam energy measurement in proton therapy: a feasibility study |
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