The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration

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

doi:10.1016/j.nima.2020.164756

The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration

Yunsheng Dong, Silvestre Gianluigi, Colombi Sofia, Alexandrov Andrey, Alpat Behcet, Ambrosi Giovanni, Argirò Stefano, Raul Arteche Diaz, Barbanera Mattia, Bartosik Nazar, Belcari Nicola, Bellinzona Elettra, Biondi Silvia, Maria Giuseppina Bisogni, Bruni Graziano, Carra Pietro, Cerello Piergiorgio, Ciarrocchi Esther, Clozza Alberto, Giovanni De LellisAlberto Del Guerra, Micol De Simoni, Antonia Di Crescenzo, Benedetto Di Ruzza, Donetti Marco, Durante Marco, Ferrero Veronica, Fiandrini Emanuele, Finck Christian, Fiorina Elisa, Fischetti Marta, Francesconi Marco, Franchini Matteo, Franciosini Gaia, Galati Giuliana, Galli Luca, Gentile Valerio, Giraudo Giuseppe, Hetzel Ronja, Iarocci Enzo, Ionica Maria, Kanxheri Keida, Aafke Christine Kraan, Lante Valeria, Chiara La Tessa, Laurenza Martina, Lauria Adele, Ernesto Lopez Torres, Marafini Michela, Massimi Cristian, Mattei Ilaria, Mengarelli Alberto, Moggi Andrea, Maria Cristina Montesi, Maria Cristina Morone, Morrocchi Matteo, Muraro Silvia, Narici Livio, Pastore Alessandra, Pastrone Nadia, Vincenzo Patera, Pennazio Francesco, Placidi Pisana, Pullia Marco, Raffaelli Fabrizio, Ramello Luciano, Ridolfi Riccardo, Rosso Valeria, Sanelli Claudio, Sarti Alessio, Sartorelli Gabriella, Sato Osamu, Savazzi Simone, Scavarda Lorenzo, Schiavi Angelo, Schuy Christoph, Scifoni Emanuele, Sciubba Adalberto, Sécher Alexandre, Selvi Marco, Sitta Mario, Spighi Roberto, Spiriti Eleuterio, Sportelli Giancarlo, Stahl Achim, Tomassini Sandro, Marco Toppi, Traini Giacomo, Valeri Tioukov, Serena Marta Valle, Marie Vanstalle, Mauro Villa, Weber Ulrich, Zoccoli Antonio, Giuseppe Battistoni, Leonello Servoli, Francesco Tommasino

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

Abstract

The study that we present is part of the preparation work for the setup of the FOOT (FragmentatiOn Of Target) experiment whose main goal is the measurement of the double differential cross sections of fragments produced in nuclear interactions of particles with energies relevant for particle therapy. The present work is focused on the characterization of the gas-filled drift chamber detector composed of 36 sensitive cells, distributed over two perpendicular views. Each view consists of six consecutive and staggered layers with three cells per layer. We investigated the detector efficiency and we performed an external calibration of the space–time relations at the level of single cells. This information was then used to evaluate the drift chamber resolution. An external tracking system realized with microstrip silicon detectors was adopted to have a track measurement independent on the drift chamber. The characterization was performed with a proton beam at the energies of 228 and 80 MeV. The overall hit detection efficiency of the drift chamber has been found to be 0.929±0.008, independent on the proton beam energy. The spatial resolution in the central part of the cell is about 150±10μ m and 300±10μ m and the corresponding detector angular resolution has been measured to be 1.62±0.16 mrad and 2.1±0.4 mrad for the higher and lower beam energies, respectively. In addition, the best value on the intrinsic drift chamber resolution has been evaluated to be in the range 60−100μ m. In the framework of the FOOT experiment, the drift chamber will be adopted in the pre-target region, and will be exploited to measure the projectile direction and position, as well as for the identification of pre-target fragmentation events.

Lingua originale	Inglese
Numero di articolo	164756
Rivista	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	986
DOI	https://doi.org/10.1016/j.nima.2020.164756
Stato di pubblicazione	Pubblicato - 11 gen 2021
Pubblicato esternamente	Sì

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10.1016/j.nima.2020.164756

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Dong, Y., Gianluigi, S., Sofia, C., Andrey, A., Behcet, A., Giovanni, A., Stefano, A., Arteche Diaz, R., Mattia, B., Nazar, B., Nicola, B., Elettra, B., Silvia, B., Bisogni, M. G., Graziano, B., Pietro, C., Piergiorgio, C., Esther, C., Alberto, C., ... Tommasino, F. (2021). The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 986, Articolo 164756. https://doi.org/10.1016/j.nima.2020.164756

@article{3bbe53be413c4c5a8cdd29aff31ce7ae,

title = "The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration",

abstract = "The study that we present is part of the preparation work for the setup of the FOOT (FragmentatiOn Of Target) experiment whose main goal is the measurement of the double differential cross sections of fragments produced in nuclear interactions of particles with energies relevant for particle therapy. The present work is focused on the characterization of the gas-filled drift chamber detector composed of 36 sensitive cells, distributed over two perpendicular views. Each view consists of six consecutive and staggered layers with three cells per layer. We investigated the detector efficiency and we performed an external calibration of the space–time relations at the level of single cells. This information was then used to evaluate the drift chamber resolution. An external tracking system realized with microstrip silicon detectors was adopted to have a track measurement independent on the drift chamber. The characterization was performed with a proton beam at the energies of 228 and 80 MeV. The overall hit detection efficiency of the drift chamber has been found to be 0.929±0.008, independent on the proton beam energy. The spatial resolution in the central part of the cell is about 150±10μ m and 300±10μ m and the corresponding detector angular resolution has been measured to be 1.62±0.16 mrad and 2.1±0.4 mrad for the higher and lower beam energies, respectively. In addition, the best value on the intrinsic drift chamber resolution has been evaluated to be in the range 60−100μ m. In the framework of the FOOT experiment, the drift chamber will be adopted in the pre-target region, and will be exploited to measure the projectile direction and position, as well as for the identification of pre-target fragmentation events.",

keywords = "Drift chamber, Nuclear physics, Silicon microstrip detector",

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

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

year = "2021",

month = jan,

day = "11",

doi = "10.1016/j.nima.2020.164756",

language = "English",

volume = "986",

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

issn = "0168-9002",

publisher = "Elsevier",

}

Dong, Y, Gianluigi, S, Sofia, C, Andrey, A, Behcet, A, Giovanni, A, Stefano, A, Arteche Diaz, R, Mattia, B, Nazar, B, Nicola, B, Elettra, B, Silvia, B, Bisogni, MG, Graziano, B, Pietro, C, Piergiorgio, C, Esther, C, Alberto, C, De Lellis, G, Del Guerra, A, De Simoni, M, Di Crescenzo, A, Di Ruzza, B, Marco, D, Marco, D, Veronica, F, Emanuele, F, Christian, F, Elisa, F, Marta, F, Marco, F, Matteo, F, Gaia, F, Giuliana, G, Luca, G, Valerio, G, Giuseppe, G, Ronja, H, Enzo, I, Maria, I, Keida, K, Kraan, AC, Valeria, L, La Tessa, C, Martina, L, Adele, L, Lopez Torres, E, Michela, M, Cristian, M, Ilaria, M, Alberto, M, Andrea, M, Montesi, MC, Morone, MC, Matteo, M, Silvia, M, Livio, N, Alessandra, P, Nadia, P, Patera, V, Francesco, P, Pisana, P, Marco, P, Fabrizio, R, Luciano, R, Riccardo, R, Valeria, R, Claudio, S, Alessio, S, Gabriella, S, Osamu, S, Simone, S, Lorenzo, S, Angelo, S, Christoph, S, Emanuele, S, Adalberto, S, Alexandre, S, Marco, S, Mario, S, Roberto, S, Eleuterio, S, Giancarlo, S, Achim, S, Sandro, T, Toppi, M, Giacomo, T, Tioukov, V, Valle, SM, Vanstalle, M, Villa, M, Ulrich, W, Antonio, Z, Battistoni, G, Servoli, L & Tommasino, F 2021, 'The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 986, 164756. https://doi.org/10.1016/j.nima.2020.164756

The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration. / Dong, Yunsheng; Gianluigi, Silvestre; Sofia, Colombi et al.
In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 986, 164756, 11.01.2021.

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

TY - JOUR

T1 - The Drift Chamber detector of the FOOT experiment

T2 - Performance analysis and external calibration

AU - Dong, Yunsheng

AU - Gianluigi, Silvestre

AU - Sofia, Colombi

AU - Andrey, Alexandrov

AU - Behcet, Alpat

AU - Giovanni, Ambrosi

AU - Stefano, Argirò

AU - Arteche Diaz, Raul

AU - Mattia, Barbanera

AU - Nazar, Bartosik

AU - Nicola, Belcari

AU - Elettra, Bellinzona

AU - Silvia, Biondi

AU - Bisogni, Maria Giuseppina

AU - Graziano, Bruni

AU - Pietro, Carra

AU - Piergiorgio, Cerello

AU - Esther, Ciarrocchi

AU - Alberto, Clozza

AU - De Lellis, Giovanni

AU - Del Guerra, Alberto

AU - De Simoni, Micol

AU - Di Crescenzo, Antonia

AU - Di Ruzza, Benedetto

AU - Marco, Donetti

AU - Marco, Durante

AU - Veronica, Ferrero

AU - Emanuele, Fiandrini

AU - Christian, Finck

AU - Elisa, Fiorina

AU - Marta, Fischetti

AU - Marco, Francesconi

AU - Matteo, Franchini

AU - Gaia, Franciosini

AU - Giuliana, Galati

AU - Luca, Galli

AU - Valerio, Gentile

AU - Giuseppe, Giraudo

AU - Ronja, Hetzel

AU - Enzo, Iarocci

AU - Maria, Ionica

AU - Keida, Kanxheri

AU - Kraan, Aafke Christine

AU - Valeria, Lante

AU - La Tessa, Chiara

AU - Martina, Laurenza

AU - Adele, Lauria

AU - Lopez Torres, Ernesto

AU - Michela, Marafini

AU - Cristian, Massimi

AU - Ilaria, Mattei

AU - Alberto, Mengarelli

AU - Andrea, Moggi

AU - Montesi, Maria Cristina

AU - Morone, Maria Cristina

AU - Matteo, Morrocchi

AU - Silvia, Muraro

AU - Livio, Narici

AU - Alessandra, Pastore

AU - Nadia, Pastrone

AU - Patera, Vincenzo

AU - Francesco, Pennazio

AU - Pisana, Placidi

AU - Marco, Pullia

AU - Fabrizio, Raffaelli

AU - Luciano, Ramello

AU - Riccardo, Ridolfi

AU - Valeria, Rosso

AU - Claudio, Sanelli

AU - Alessio, Sarti

AU - Gabriella, Sartorelli

AU - Osamu, Sato

AU - Simone, Savazzi

AU - Lorenzo, Scavarda

AU - Angelo, Schiavi

AU - Christoph, Schuy

AU - Emanuele, Scifoni

AU - Adalberto, Sciubba

AU - Alexandre, Sécher

AU - Marco, Selvi

AU - Mario, Sitta

AU - Roberto, Spighi

AU - Eleuterio, Spiriti

AU - Giancarlo, Sportelli

AU - Achim, Stahl

AU - Sandro, Tomassini

AU - Toppi, Marco

AU - Giacomo, Traini

AU - Tioukov, Valeri

AU - Valle, Serena Marta

AU - Vanstalle, Marie

AU - Villa, Mauro

AU - Ulrich, Weber

AU - Antonio, Zoccoli

AU - Battistoni, Giuseppe

AU - Servoli, Leonello

AU - Tommasino, Francesco

PY - 2021/1/11

Y1 - 2021/1/11

N2 - The study that we present is part of the preparation work for the setup of the FOOT (FragmentatiOn Of Target) experiment whose main goal is the measurement of the double differential cross sections of fragments produced in nuclear interactions of particles with energies relevant for particle therapy. The present work is focused on the characterization of the gas-filled drift chamber detector composed of 36 sensitive cells, distributed over two perpendicular views. Each view consists of six consecutive and staggered layers with three cells per layer. We investigated the detector efficiency and we performed an external calibration of the space–time relations at the level of single cells. This information was then used to evaluate the drift chamber resolution. An external tracking system realized with microstrip silicon detectors was adopted to have a track measurement independent on the drift chamber. The characterization was performed with a proton beam at the energies of 228 and 80 MeV. The overall hit detection efficiency of the drift chamber has been found to be 0.929±0.008, independent on the proton beam energy. The spatial resolution in the central part of the cell is about 150±10μ m and 300±10μ m and the corresponding detector angular resolution has been measured to be 1.62±0.16 mrad and 2.1±0.4 mrad for the higher and lower beam energies, respectively. In addition, the best value on the intrinsic drift chamber resolution has been evaluated to be in the range 60−100μ m. In the framework of the FOOT experiment, the drift chamber will be adopted in the pre-target region, and will be exploited to measure the projectile direction and position, as well as for the identification of pre-target fragmentation events.

AB - The study that we present is part of the preparation work for the setup of the FOOT (FragmentatiOn Of Target) experiment whose main goal is the measurement of the double differential cross sections of fragments produced in nuclear interactions of particles with energies relevant for particle therapy. The present work is focused on the characterization of the gas-filled drift chamber detector composed of 36 sensitive cells, distributed over two perpendicular views. Each view consists of six consecutive and staggered layers with three cells per layer. We investigated the detector efficiency and we performed an external calibration of the space–time relations at the level of single cells. This information was then used to evaluate the drift chamber resolution. An external tracking system realized with microstrip silicon detectors was adopted to have a track measurement independent on the drift chamber. The characterization was performed with a proton beam at the energies of 228 and 80 MeV. The overall hit detection efficiency of the drift chamber has been found to be 0.929±0.008, independent on the proton beam energy. The spatial resolution in the central part of the cell is about 150±10μ m and 300±10μ m and the corresponding detector angular resolution has been measured to be 1.62±0.16 mrad and 2.1±0.4 mrad for the higher and lower beam energies, respectively. In addition, the best value on the intrinsic drift chamber resolution has been evaluated to be in the range 60−100μ m. In the framework of the FOOT experiment, the drift chamber will be adopted in the pre-target region, and will be exploited to measure the projectile direction and position, as well as for the identification of pre-target fragmentation events.

KW - Drift chamber

KW - Nuclear physics

KW - Silicon microstrip detector

UR - https://www.scopus.com/pages/publications/85092744803

U2 - 10.1016/j.nima.2020.164756

DO - 10.1016/j.nima.2020.164756

M3 - Article

SN - 0168-9002

VL - 986

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

M1 - 164756

ER -

The Drift Chamber detector of the FOOT experiment: Performance analysis and external calibration

Abstract

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