Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment

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

doi:10.1088/1748-0221/17/12/P12012

Journal of Instrumentation

paper

Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment

Gianluigi Silvestre^11,22, Francesca Peverini^11,22, Leonello Servoli¹¹, Keida Kanxheri^11,22, Mattia Barbanera¹¹, Pisana Placidi^11,23, Maria Ionica¹¹, Mirco Caprai¹¹, Giovanni Ambrosi¹¹, Lucia Salvi^11,22, Emanuele Fiandrini^11,22, Behcet Alpat¹¹, Andrey Alexandrov^10,18,31,32, Stefano Argirò^26,17, Diaz Raul Arteche²⁸, Nazar Bartosik¹⁷, Giuseppe Battistoni⁸, Nicola Belcari^2,1, Elettra Bellinzona¹⁵, Silvia Biondi^4,19, Maria Giuseppina Bisogni^1,2, Graziano Bruni⁴, Pietro Carra^2,1, Francesca Cavanna¹⁷, Piergiorgio Cerello¹⁷, Esther Ciarrocchi^2,1, Alberto Clozza⁷, Sofia Colombi^15,16, Angelica De Gregorio^12,24, Giovanni De Lellis^10,18, Alberto Del Guerra^2,1, Micol De Simoni¹², Antonia Di Crescenzo^10,18, Benedetto Di Ruzza¹⁵, Marco Donetti^5,17, Yunsheng Dong⁸, Marco Durante^6,30, Riccardo Faccini^12,24, Veronica Ferrero¹⁷, Christian Finck¹⁴, Elisa Fiorina¹⁷, Marta Fischetti²¹, Marco Francesconi^2,1, Matteo Franchini^4,19, Gaia Franciosini^12,24, Giuliana Galati³³, Luca Galli¹, Valerio Gentile²⁹, Giuseppe Giraudo¹⁷, Ronja Hetzel³, Enzo Iarocci⁷, Aafke Christine Kraan¹, Chiara La Tessa^15,16, Martina Laurenza⁷, Adele Lauria^10,18, Ernesto Lopez Torres^28,17, Alice Manna^4,19, Michela Marafini^12,20, Maurizio Massa¹, Cristian Massimi^4,19, Ilaria Mattei⁸, Alessio Mereghetti⁵, Alberto Mengarelli⁴, Andrea Moggi¹, Maria Cristina Montesi^10,18, Maria Cristina Morone^13,25, Matteo Morrocchi^1,2, Silvia Muraro⁸, Alessandra Pastore²⁷, Nadia Pastrone¹⁷, Vincenzo Patera^12,21, Francesco Pennazio¹⁷, Marco Pullia⁵, Luciano Ramello³⁶, Claire-Anne Reidel⁶, Riccardo Ridolfi^4,19, Valeria Rosso^2,1, Claudio Sanelli⁷, Alessio Sarti^12,21, Gabriella Sartorelli^4,19, Osamu Sato⁹, Simone Savazzi⁵, Lorenzo Scavarda³⁴, Angelo Schiavi^12,21, Christoph Schuy⁶, Emanuele Scifoni¹⁵, Adalberto Sciubba^7,21, Alexandre Sécher¹⁴, Marco Selvi⁴, Mario Sitta^17,35, Roberto Spighi⁴, Eleuterio Spiriti⁷, Giancarlo Sportelli^2,1, Achim Stahl³, Sandro Tomassini⁷, Francesco Tommasino^15,16, Marco Toppi^12,21, Giacomo Traini¹², Antonio Trigilio^12,24, Giacomo Ubaldi^4,19, Valeri Tioukov¹⁰, Alessandro Valetti^17,26, Serena Marta Valle⁸, Marie Vanstalle¹⁴, Mauro Villa^4,19, Ulrich Weber⁶, Roberto Zarrella^4,19, Antonio Zoccoli^4,19 and The FOOT collaboration

Published 12 December 2022 • © 2022 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 17, December 2022 Citation Gianluigi Silvestre et al 2022 JINST 17 P12012 DOI 10.1088/1748-0221/17/12/P12012

Download Article PDF

Article metrics

112 Total downloads

Permissions

Get permission to re-use this article

Author e-mails

leonello.servoli@pg.infn.it

Author affiliations

¹ Istituto Nazionale di Fisica Nucleare (INFN), Section of Pisa, Pisa, Italy

² University of Pisa, Department of Physics, Pisa, Italy

³ RWTH Aachen University, Physics Institute III B, Aachen, Germany

⁴ Istituto Nazionale di Fisica Nucleare (INFN), Section of Bologna, Bologna, Italy

⁵ Centro Nazionale di Adroterapia Oncologica (CNAO), Pavia, Italy

⁶ Biophysics Department, GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt, Germany

⁷ Istituto Nazionale di Fisica Nucleare (INFN), Laboratori Nazionali di Frascati, Frascati, Italy

⁸ Istituto Nazionale di Fisica Nucleare (INFN), Section of Milano, Milano, Italy

⁹ Nagoya University, Department of Physics, Nagoya, Japan

¹⁰ Istituto Nazionale di Fisica Nucleare (INFN), Section of Napoli, Napoli, Italy

¹¹ Istituto Nazionale di Fisica Nucleare (INFN), Section of Perugia, Perugia, Italy

¹² Istituto Nazionale di Fisica Nucleare (INFN), Section of Roma 1, Rome, Italy

¹³ University of Rome Tor Vergata, Department of Physics, Rome, Italy

¹⁴ Université de Strasbourg, CNRS, IPHC UMR 7871, F-67000 Strasbourg, France

¹⁵ Trento Institute for Fundamental Physics and Applications, Istituto Nazionale di Fisica Nucleare (TIFPA-INFN), Trento, Italy

¹⁶ University of Trento, Department of Physics, Trento, Italy

¹⁷ Istituto Nazionale di Fisica Nucleare (INFN), Section of Torino, Torino, Italy

¹⁸ University of Napoli, Department of Physics "E. Pancini", Napoli, Italy

¹⁹ University of Bologna, Department of Physics and Astronomy, Bologna, Italy

²⁰ Museo Storico della Fisica e Centro Studi e Ricerche Enrico Fermi, Rome, Italy

²¹ University of Rome La Sapienza, Department of Scienze di Base e Applicate per l'Ingegneria (SBAI), Rome, Italy

²² University of Perugia, Department of Physics and Geology, Perugia, Italy

²³ University of Perugia, Department of Engineering, Perugia, Italy

²⁴ University of Rome La Sapienza, Department of Physics, Rome, Italy

²⁵ Istituto Nazionale di Fisica Nucleare (INFN), Section of Roma Tor Vergata, Rome, Italy

²⁶ University of Torino, Department of Physics, Torino, Italy

²⁷ Istituto Nazionale di Fisica Nucleare (INFN), Section of Bari, Bari, Italy

²⁸ CEADEN, Centro de Aplicaciones Tecnologicas y Desarrollo Nuclear, Havana, Cuba

²⁹ Gran Sasso Science Institute, L'Aquila, Italy

³⁰ Technische Universität Darmstadt Institut für Festkörperphysik, Darmstadt, Germany

³¹ National University of Science and Technology, MISIS, RUS-119049 Moscow, Russia

³² Lebedev Physical Institute of the Russian Academy of Sciences, RUS-119991 Moscow, Russia

³³ University of Bari, Department of Physics, Bari, Italy

³⁴ ALTEC, Aerospace Logistic Technology Engineering Company, Corso Marche 79, 10146 Torino, Italy

³⁵ Dipartimento di Scienze e Innovazione Tecnologica, Universitá del Piemonte Orientale, Alessandria, Italy

³⁶ Dipartimento per lo Sviluppo Sostenibile e la Transizione Ecologica, Universita' del Piemonte Orientale, Vercelli, Italy

Dates

Received 26 September 2022
Accepted 26 October 2022
Published 12 December 2022

Buy this article in print

Journal RSS

Sign up for new issue notifications

Abstract

The goals of the FOOT (FragmentatiOn Of Target) experiment are to measure the proton double differential fragmentation cross-section on H, C, O targets at beam energies of interest for hadrontherapy (50–250 MeV for protons and 50–400 MeV/u for carbon ions), and also at higher energy, up to 1 GeV/u for radioprotection in space. Given the short range of the fragments, an inverse kinematic approach has been chosen, requiring precise tracking capabilities for charged particles. One of the subsystems designed for the experiment will be the MSD (Microstrip Silicon Detector), consisting of three x-y measurement planes, each one made by two single sided silicon microstrip sensors. In this document, we will present a detailed description of the first MSD prototype assembly, developed by INFN Perugia group and the subsequent characterization of the detector performance. The prototype is a wide area (∼ 100 cm²) single sensor, 150 μm thick to reduce material budget and fragmentation probability along the beam path, with 50 μm strip pitch and 2 floating strip readout approach. The pitch adapter to connect strips with the readout channels of the ASIC has been implemented directly on the silicon surface. Beside the interest for the FOOT experiment, the results in terms of cluster signal, signal-to-noise ratio, dynamic range of the readout chips, as well as long-term stability studies in terms of noise, are relevant also for other experiments where the use of thin sensors is crucial.

Export citation and abstract BibTeX RIS

Previous article in issue

Next article in issue

Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment

Article metrics

Permissions

Share this article

Author e-mails

Author affiliations

Dates

Abstract