The design of a detector for tracking charged particles is presented together with the characterization techniques developed to extract the main design specifications. The goals for the final detector are to achieve real-time imaging performances, a large detection area, and a high spatial resolution, particularly suitable for medical imaging applications. This paper describes the prototype of the tracker plane, which has a 20 × 20 cm2sensitive area consisting of two crossed ribbons of 500μm square scintillating fibers. The information about the hit position extracted real-time tracker in an innovative way, using a reduced number of the read-out channels to obtain a very large detection area but with moderate costs and complexity. The performances of the tracker have been investigated usingβsources, cosmic rays, and a 62 MeV proton beam.
Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers / Lo Presti, Domenico; Longhitano, Fabio; Pugliatti, Cristina; Giordano, Valentina Maria; Leonora, Emanuele; Reito, Santo; Romano, Francesco; Stancampiano, Concetta; Ventura, C.; Sipala, Valeria; Bonanno, Danilo Luigi; Cirrone, Giuseppe Antonio Pablo; Randazzo, Nunzio; Russo, Giovanni Valerio; Aiello, Sebastiano. - In: ADVANCES IN HIGH ENERGY PHYSICS. - ISSN 1687-7357. - 2014:(2014). [10.1155/2014/692908]
Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers
Romano, Francesco;Ventura, C.;Sipala, Valeria;
2014-01-01
Abstract
The design of a detector for tracking charged particles is presented together with the characterization techniques developed to extract the main design specifications. The goals for the final detector are to achieve real-time imaging performances, a large detection area, and a high spatial resolution, particularly suitable for medical imaging applications. This paper describes the prototype of the tracker plane, which has a 20 × 20 cm2sensitive area consisting of two crossed ribbons of 500μm square scintillating fibers. The information about the hit position extracted real-time tracker in an innovative way, using a reduced number of the read-out channels to obtain a very large detection area but with moderate costs and complexity. The performances of the tracker have been investigated usingβsources, cosmic rays, and a 62 MeV proton beam.| File | Dimensione | Formato | |
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