Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment

Matteo Morrocchi; Esther Ciarrocchi; Andrey Alexandrov; Behcet Alpat; Giovanni Ambrosi; Stefano Argirò; Raul Arteche Diaz; Nazar Bartosik; Giuseppe Battistoni; Nicola Belcari; Matteo Bertazzoni; Silvia Biondi; Graziano Bruni; Niccolò Camarlinghi; Pietro Carra; Piergiorgio Cerello; Alberto Clozza; Sofia Colombi; Giovanni De Lellis; Alberto Del Guerra; Micol De Simoni; Antonia Di Crescenzo; Marco Donetti; Yunsheng Dong; Marco Durante; Alessia Embriaco; Max Emde; Riccardo Faccini; Veronica Ferrero; Fernando Ferroni; Emanuele Fiandrini; Christian Finck; Elisa Fiorina; Marta Fischetti; Marco Francesconi; Matteo Franchini; Luca Galli; Marco Garbini; Valerio Gentile; Giuseppe Giraudo; Ronja Hetzel; Sebastian Hild; Maria Ionica; Keida Kanxheri; Aafke Christine Kraan; Valeria Lante; Adele Lauria; Chiara La Tessa; Ernesto Lopez Torres; Michela Marafini; Ilaria Mattei; Alberto Mengarelli; Riccardo Mirabelli; Maria Cristina Montesi; Maria Cristina Morone; Silvia Muraro; Livio Narici; Alessandra Pastore; Nadia Pastrone; Vincenzo Patera; Francesco Pennazio; Pisana Placidi; Marco Pullia; Luciano Ramello; Riccardo Ridolfi; Valeria Rosso; Marta Rovituso; Claudio Sanelli; Alessio Sarti; Gabriella Sartorelli; Osamu Sato; Simone Savazzi; Lorenzo Scavarda; Angelo Schiavi; Christoph Schuy; Emanuele Scifoni; Adalberto Sciubba; Marco Selvi; Leonello Servoli; Gianluigi Silvestre; Mario Sitta; Roberto Spighi; Eleuterio Spiriti; Giancarlo Sportelli; Achim Stahl; Sandro Tomassini; Francesco Tommasino; Giacomo Traini; Valeri Tioukov; Serena Marta Valle; Marie Vanstalle; Mauro Villa; Ulrich Weber; Antonio Zoccoli; Maria Giuseppina Bisogni

doi:10.1016/j.nima.2018.09.086

Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment

Matteo Morrocchi, Esther Ciarrocchi, Andrey Alexandrov, Behcet Alpat, Giovanni Ambrosi, Stefano Argirò, Raul Arteche Diaz, Nazar Bartosik, Giuseppe Battistoni, Nicola Belcari, Matteo Bertazzoni, Silvia Biondi, Graziano Bruni, Niccolò Camarlinghi, Pietro Carra, Piergiorgio Cerello, Alberto Clozza, Sofia Colombi, Giovanni De Lellis, Alberto Del GuerraMicol De Simoni, Antonia Di Crescenzo, Marco Donetti, Yunsheng Dong, Marco Durante, Alessia Embriaco, Max Emde, Riccardo Faccini, Veronica Ferrero, Fernando Ferroni, Emanuele Fiandrini, Christian Finck, Elisa Fiorina, Marta Fischetti, Marco Francesconi, Matteo Franchini, Luca Galli, Marco Garbini, Valerio Gentile, Giuseppe Giraudo, Ronja Hetzel, Sebastian Hild, Maria Ionica, Keida Kanxheri, Aafke Christine Kraan, Valeria Lante, Adele Lauria, Chiara La Tessa, Ernesto Lopez Torres, Michela Marafini, Ilaria Mattei, Alberto Mengarelli, Riccardo Mirabelli, Maria Cristina Montesi, Maria Cristina Morone, Silvia Muraro, Livio Narici, Alessandra Pastore, Nadia Pastrone, Vincenzo Patera, Francesco Pennazio, Pisana Placidi, Marco Pullia, Luciano Ramello, Riccardo Ridolfi, Valeria Rosso, Marta Rovituso, Claudio Sanelli, Alessio Sarti, Gabriella Sartorelli, Osamu Sato, Simone Savazzi, Lorenzo Scavarda, Angelo Schiavi, Christoph Schuy, Emanuele Scifoni, Adalberto Sciubba, Marco Selvi, Leonello Servoli, Gianluigi Silvestre, Mario Sitta, Roberto Spighi, Eleuterio Spiriti, Giancarlo Sportelli, Achim Stahl, Sandro Tomassini, Francesco Tommasino, Giacomo Traini, Valeri Tioukov, Serena Marta Valle, Marie Vanstalle, Mauro Villa, Ulrich Weber, Antonio Zoccoli, Maria Giuseppina Bisogni

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

This paper describes the development and characterization of a ΔE-TOF detector composed of a plastic scintillator bar coupled at both ends to silicon photomultipliers. This detector is a prototype of a larger version which will be used in the FOOT (FragmentatiOn Of Target) experiment to identify the fragments produced by ion beams accelerated onto a hydrogen-enriched target. The final ΔE-TOF detector will be composed of two layers of plastic scintillator bars with orthogonal orientation and will measure, for each crossing fragment, the energy deposited in the plastic scintillator (ΔE), the time of flight (TOF), and the coordinates of the interaction position in the scintillator. To meet the FOOT experimental requirements, the detector should have energy resolution of a few percents and time resolution of 70 ps, and it should allow to discriminate multiple fragments belonging to the same event. To evaluate the achievable performances, the detector prototype was irradiated with protons of kinetic energy in the 70–230 MeV range and interacting at several positions along the bar. The measured energy resolution σ_ΔE∕ΔE was 6–14%, after subtracting the fluctuations of the deposited energy. A time resolution σ between 120 and 180 ps was obtained with respect to a trigger detector. A spatial resolution σ of 1.9 cm was obtained for protons interacting at the center of the bar.

Lingua originale	Inglese
pagine (da-a)	116-124
Numero di pagine	9
Rivista	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	916
DOI	https://doi.org/10.1016/j.nima.2018.09.086
Stato di pubblicazione	Pubblicato - 1 feb 2019

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10.1016/j.nima.2018.09.086

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Morrocchi, M., Ciarrocchi, E., Alexandrov, A., Alpat, B., Ambrosi, G., Argirò, S., Arteche Diaz, R., Bartosik, N., Battistoni, G., Belcari, N., Bertazzoni, M., Biondi, S., Bruni, G., Camarlinghi, N., Carra, P., Cerello, P., Clozza, A., Colombi, S., De Lellis, G., ... Bisogni, M. G. (2019). Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 916, 116-124. https://doi.org/10.1016/j.nima.2018.09.086

@article{71c3bb5db7574209bf154bd65bece17e,

title = "Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment",

abstract = "This paper describes the development and characterization of a ΔE-TOF detector composed of a plastic scintillator bar coupled at both ends to silicon photomultipliers. This detector is a prototype of a larger version which will be used in the FOOT (FragmentatiOn Of Target) experiment to identify the fragments produced by ion beams accelerated onto a hydrogen-enriched target. The final ΔE-TOF detector will be composed of two layers of plastic scintillator bars with orthogonal orientation and will measure, for each crossing fragment, the energy deposited in the plastic scintillator (ΔE), the time of flight (TOF), and the coordinates of the interaction position in the scintillator. To meet the FOOT experimental requirements, the detector should have energy resolution of a few percents and time resolution of 70 ps, and it should allow to discriminate multiple fragments belonging to the same event. To evaluate the achievable performances, the detector prototype was irradiated with protons of kinetic energy in the 70–230 MeV range and interacting at several positions along the bar. The measured energy resolution σΔE∕ΔE was 6–14%, after subtracting the fluctuations of the deposited energy. A time resolution σ between 120 and 180 ps was obtained with respect to a trigger detector. A spatial resolution σ of 1.9 cm was obtained for protons interacting at the center of the bar.",

keywords = "Particle detectors, Particle therapy, Plastic scintillator, Silicon photomultiplier",

author = "Matteo Morrocchi and Esther Ciarrocchi and Andrey Alexandrov and Behcet Alpat and Giovanni Ambrosi and Stefano Argir{\`o} and {Arteche Diaz}, Raul and Nazar Bartosik and Giuseppe Battistoni and Nicola Belcari and Matteo Bertazzoni and Silvia Biondi and Graziano Bruni and Niccol{\`o} Camarlinghi and Pietro Carra and Piergiorgio Cerello and Alberto Clozza and Sofia Colombi and {De Lellis}, Giovanni and {Del Guerra}, Alberto and Simoni, {Micol De} and Crescenzo, {Antonia Di} and Marco Donetti and Yunsheng Dong and Marco Durante and Alessia Embriaco and Max Emde and Riccardo Faccini and Veronica Ferrero and Fernando Ferroni and Emanuele Fiandrini and Christian Finck and Elisa Fiorina and Marta Fischetti and Marco Francesconi and Matteo Franchini and Luca Galli and Marco Garbini and Valerio Gentile and Giuseppe Giraudo and Ronja Hetzel and Sebastian Hild and Maria Ionica and Keida Kanxheri and Kraan, {Aafke Christine} and Valeria Lante and Adele Lauria and {La Tessa}, Chiara and {Lopez Torres}, Ernesto and Michela Marafini and Ilaria Mattei and Alberto Mengarelli and Riccardo Mirabelli and Montesi, {Maria Cristina} and Morone, {Maria Cristina} and Silvia Muraro and Livio Narici and Alessandra Pastore and Nadia Pastrone and Vincenzo Patera and Francesco Pennazio and Pisana Placidi and Marco Pullia and Luciano Ramello and Riccardo Ridolfi and Valeria Rosso and Marta Rovituso and Claudio Sanelli and Alessio Sarti and Gabriella Sartorelli and Osamu Sato and Simone Savazzi and Lorenzo Scavarda and Angelo Schiavi and Christoph Schuy and Emanuele Scifoni and Adalberto Sciubba and Marco Selvi and Leonello Servoli and Gianluigi Silvestre and Mario Sitta and Roberto Spighi and Eleuterio Spiriti and Giancarlo Sportelli and Achim Stahl and Sandro Tomassini and Francesco Tommasino and Giacomo Traini and Valeri Tioukov and Valle, {Serena Marta} and Marie Vanstalle and Mauro Villa and Ulrich Weber and Antonio Zoccoli and Bisogni, {Maria Giuseppina}",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier B.V.",

year = "2019",

month = feb,

day = "1",

doi = "10.1016/j.nima.2018.09.086",

language = "English",

volume = "916",

pages = "116--124",

journal = "Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",

issn = "0168-9002",

publisher = "Elsevier",

}

Morrocchi, M, Ciarrocchi, E, Alexandrov, A, Alpat, B, Ambrosi, G, Argirò, S, Arteche Diaz, R, Bartosik, N, Battistoni, G, Belcari, N, Bertazzoni, M, Biondi, S, Bruni, G, Camarlinghi, N, Carra, P, Cerello, P, Clozza, A, Colombi, S, De Lellis, G, Del Guerra, A, Simoni, MD, Crescenzo, AD, Donetti, M, Dong, Y, Durante, M, Embriaco, A, Emde, M, Faccini, R, Ferrero, V, Ferroni, F, Fiandrini, E, Finck, C, Fiorina, E, Fischetti, M, Francesconi, M, Franchini, M, Galli, L, Garbini, M, Gentile, V, Giraudo, G, Hetzel, R, Hild, S, Ionica, M, Kanxheri, K, Kraan, AC, Lante, V, Lauria, A, La Tessa, C, Lopez Torres, E, Marafini, M, Mattei, I, Mengarelli, A, Mirabelli, R, Montesi, MC, Morone, MC, Muraro, S, Narici, L, Pastore, A, Pastrone, N, Patera, V, Pennazio, F, Placidi, P, Pullia, M, Ramello, L, Ridolfi, R, Rosso, V, Rovituso, M, Sanelli, C, Sarti, A, Sartorelli, G, Sato, O, Savazzi, S, Scavarda, L, Schiavi, A, Schuy, C, Scifoni, E, Sciubba, A, Selvi, M, Servoli, L, Silvestre, G, Sitta, M, Spighi, R, Spiriti, E, Sportelli, G, Stahl, A, Tomassini, S, Tommasino, F, Traini, G, Tioukov, V, Valle, SM, Vanstalle, M, Villa, M, Weber, U, Zoccoli, A & Bisogni, MG 2019, 'Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 916, pagg. 116-124. https://doi.org/10.1016/j.nima.2018.09.086

Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment. / Morrocchi, Matteo; Ciarrocchi, Esther; Alexandrov, Andrey et al.
In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 916, 01.02.2019, pag. 116-124.

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

TY - JOUR

T1 - Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment

AU - Morrocchi, Matteo

AU - Ciarrocchi, Esther

AU - Alexandrov, Andrey

AU - Alpat, Behcet

AU - Ambrosi, Giovanni

AU - Argirò, Stefano

AU - Arteche Diaz, Raul

AU - Bartosik, Nazar

AU - Battistoni, Giuseppe

AU - Belcari, Nicola

AU - Bertazzoni, Matteo

AU - Biondi, Silvia

AU - Bruni, Graziano

AU - Camarlinghi, Niccolò

AU - Carra, Pietro

AU - Cerello, Piergiorgio

AU - Clozza, Alberto

AU - Colombi, Sofia

AU - De Lellis, Giovanni

AU - Del Guerra, Alberto

AU - Simoni, Micol De

AU - Crescenzo, Antonia Di

AU - Donetti, Marco

AU - Dong, Yunsheng

AU - Durante, Marco

AU - Embriaco, Alessia

AU - Emde, Max

AU - Faccini, Riccardo

AU - Ferrero, Veronica

AU - Ferroni, Fernando

AU - Fiandrini, Emanuele

AU - Finck, Christian

AU - Fiorina, Elisa

AU - Fischetti, Marta

AU - Francesconi, Marco

AU - Franchini, Matteo

AU - Galli, Luca

AU - Garbini, Marco

AU - Gentile, Valerio

AU - Giraudo, Giuseppe

AU - Hetzel, Ronja

AU - Hild, Sebastian

AU - Ionica, Maria

AU - Kanxheri, Keida

AU - Kraan, Aafke Christine

AU - Lante, Valeria

AU - Lauria, Adele

AU - La Tessa, Chiara

AU - Lopez Torres, Ernesto

AU - Marafini, Michela

AU - Mattei, Ilaria

AU - Mengarelli, Alberto

AU - Mirabelli, Riccardo

AU - Montesi, Maria Cristina

AU - Morone, Maria Cristina

AU - Muraro, Silvia

AU - Narici, Livio

AU - Pastore, Alessandra

AU - Pastrone, Nadia

AU - Patera, Vincenzo

AU - Pennazio, Francesco

AU - Placidi, Pisana

AU - Pullia, Marco

AU - Ramello, Luciano

AU - Ridolfi, Riccardo

AU - Rosso, Valeria

AU - Rovituso, Marta

AU - Sanelli, Claudio

AU - Sarti, Alessio

AU - Sartorelli, Gabriella

AU - Sato, Osamu

AU - Savazzi, Simone

AU - Scavarda, Lorenzo

AU - Schiavi, Angelo

AU - Schuy, Christoph

AU - Scifoni, Emanuele

AU - Sciubba, Adalberto

AU - Selvi, Marco

AU - Servoli, Leonello

AU - Silvestre, Gianluigi

AU - Sitta, Mario

AU - Spighi, Roberto

AU - Spiriti, Eleuterio

AU - Sportelli, Giancarlo

AU - Stahl, Achim

AU - Tomassini, Sandro

AU - Tommasino, Francesco

AU - Traini, Giacomo

AU - Tioukov, Valeri

AU - Valle, Serena Marta

AU - Vanstalle, Marie

AU - Villa, Mauro

AU - Weber, Ulrich

AU - Zoccoli, Antonio

AU - Bisogni, Maria Giuseppina

PY - 2019/2/1

Y1 - 2019/2/1

N2 - This paper describes the development and characterization of a ΔE-TOF detector composed of a plastic scintillator bar coupled at both ends to silicon photomultipliers. This detector is a prototype of a larger version which will be used in the FOOT (FragmentatiOn Of Target) experiment to identify the fragments produced by ion beams accelerated onto a hydrogen-enriched target. The final ΔE-TOF detector will be composed of two layers of plastic scintillator bars with orthogonal orientation and will measure, for each crossing fragment, the energy deposited in the plastic scintillator (ΔE), the time of flight (TOF), and the coordinates of the interaction position in the scintillator. To meet the FOOT experimental requirements, the detector should have energy resolution of a few percents and time resolution of 70 ps, and it should allow to discriminate multiple fragments belonging to the same event. To evaluate the achievable performances, the detector prototype was irradiated with protons of kinetic energy in the 70–230 MeV range and interacting at several positions along the bar. The measured energy resolution σΔE∕ΔE was 6–14%, after subtracting the fluctuations of the deposited energy. A time resolution σ between 120 and 180 ps was obtained with respect to a trigger detector. A spatial resolution σ of 1.9 cm was obtained for protons interacting at the center of the bar.

AB - This paper describes the development and characterization of a ΔE-TOF detector composed of a plastic scintillator bar coupled at both ends to silicon photomultipliers. This detector is a prototype of a larger version which will be used in the FOOT (FragmentatiOn Of Target) experiment to identify the fragments produced by ion beams accelerated onto a hydrogen-enriched target. The final ΔE-TOF detector will be composed of two layers of plastic scintillator bars with orthogonal orientation and will measure, for each crossing fragment, the energy deposited in the plastic scintillator (ΔE), the time of flight (TOF), and the coordinates of the interaction position in the scintillator. To meet the FOOT experimental requirements, the detector should have energy resolution of a few percents and time resolution of 70 ps, and it should allow to discriminate multiple fragments belonging to the same event. To evaluate the achievable performances, the detector prototype was irradiated with protons of kinetic energy in the 70–230 MeV range and interacting at several positions along the bar. The measured energy resolution σΔE∕ΔE was 6–14%, after subtracting the fluctuations of the deposited energy. A time resolution σ between 120 and 180 ps was obtained with respect to a trigger detector. A spatial resolution σ of 1.9 cm was obtained for protons interacting at the center of the bar.

KW - Particle detectors

KW - Particle therapy

KW - Plastic scintillator

KW - Silicon photomultiplier

UR - http://www.scopus.com/inward/record.url?scp=85057829068&partnerID=8YFLogxK

U2 - 10.1016/j.nima.2018.09.086

DO - 10.1016/j.nima.2018.09.086

M3 - Article

SN - 0168-9002

VL - 916

SP - 116

EP - 124

JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

ER -

Development and characterization of a ΔE-TOF detector prototype for the FOOT experiment

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