Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers

D. Lo Presti; D. L. Bonanno; F. Longhitano; C. Pugliatti; S. Aiello; G. A.P. Cirrone; V. Giordano; E. Leonora; N. Randazzo; S. Reito; F. Romano; G. V. Russo; M. Russo; V. Sipala; C. Stancampiano; C. Ventura

doi:10.1155/2014/692908

Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers

D. Lo Presti
, D. L. Bonanno
, F. Longhitano
, C. Pugliatti
, S. Aiello
, G. A.P. Cirrone
, V. Giordano
, E. Leonora
, N. Randazzo
, S. Reito
, F. Romano
, G. V. Russo
, M. Russo
, V. Sipala
, C. Stancampiano
, C. Ventura

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

2 Citas (Scopus)

Resumen

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 cm² sensitive area consisting of two crossed ribbons of 500 μm 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 using β sources, cosmic rays, and a 62 MeV proton beam.

Idioma original	Inglés estadounidense
-	692908
Publicación	Advances in High Energy Physics
Volumen	2014
DOI	https://doi.org/10.1155/2014/692908
Estado	Indizado - 2014
Publicado de forma externa	Sí

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Lo Presti, D., Bonanno, D. L., Longhitano, F., Pugliatti, C., Aiello, S., Cirrone, G. A. P., Giordano, V., Leonora, E., Randazzo, N., Reito, S., Romano, F., Russo, G. V., Russo, M., Sipala, V., Stancampiano, C., & Ventura, C. (2014). Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers. Advances in High Energy Physics, 2014, Artículo 692908. https://doi.org/10.1155/2014/692908

@article{1944c667aa2b4030bcd79d3b75dc53f3,

title = "Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers",

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 cm2 sensitive area consisting of two crossed ribbons of 500 μm 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 using β sources, cosmic rays, and a 62 MeV proton beam.",

author = "\{Lo Presti\}, D. and Bonanno, \{D. L.\} and F. Longhitano and C. Pugliatti and S. Aiello and Cirrone, \{G. A.P.\} and V. Giordano and E. Leonora and N. Randazzo and S. Reito and F. Romano and Russo, \{G. V.\} and M. Russo and V. Sipala and C. Stancampiano and C. Ventura",

year = "2014",

doi = "10.1155/2014/692908",

language = "American English",

volume = "2014",

journal = "Advances in High Energy Physics",

issn = "1687-7357",

publisher = "John Wiley and Sons Ltd",

}

Lo Presti, D, Bonanno, DL, Longhitano, F, Pugliatti, C, Aiello, S, Cirrone, GAP, Giordano, V, Leonora, E, Randazzo, N, Reito, S, Romano, F, Russo, GV, Russo, M, Sipala, V, Stancampiano, C & Ventura, C 2014, 'Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers', Advances in High Energy Physics, vol. 2014, 692908. https://doi.org/10.1155/2014/692908

TY - JOUR

T1 - Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers

AU - Lo Presti, D.

AU - Bonanno, D. L.

AU - Longhitano, F.

AU - Pugliatti, C.

AU - Aiello, S.

AU - Cirrone, G. A.P.

AU - Giordano, V.

AU - Leonora, E.

AU - Randazzo, N.

AU - Reito, S.

AU - Romano, F.

AU - Russo, G. V.

AU - Russo, M.

AU - Sipala, V.

AU - Stancampiano, C.

AU - Ventura, C.

PY - 2014

Y1 - 2014

N2 - 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 cm2 sensitive area consisting of two crossed ribbons of 500 μm 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 using β sources, cosmic rays, and a 62 MeV proton beam.

AB - 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 cm2 sensitive area consisting of two crossed ribbons of 500 μm 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 using β sources, cosmic rays, and a 62 MeV proton beam.

UR - https://www.scopus.com/pages/publications/84897478577

U2 - 10.1155/2014/692908

DO - 10.1155/2014/692908

M3 - Original Article

AN - SCOPUS:84897478577

SN - 1687-7357

VL - 2014

JO - Advances in High Energy Physics

JF - Advances in High Energy Physics

M1 - 692908

ER -

Development of a real-time, large area, high spatial resolution particle tracker based on scintillating fibers

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