Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment. (1st December 2022)
- Record Type:
- Journal Article
- Title:
- Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment. (1st December 2022)
- Main Title:
- Characterization of 150 μm thick silicon microstrip prototype for the FOOT experiment
- Authors:
- Silvestre, Gianluigi
Peverini, Francesca
Servoli, Leonello
Kanxheri, Keida
Barbanera, Mattia
Placidi, Pisana
Ionica, Maria
Caprai, Mirco
Ambrosi, Giovanni
Salvi, Lucia
Fiandrini, Emanuele
Alpat, Behcet
Alexandrov, Andrey
Argirò, Stefano
Arteche, Diaz Raul
Bartosik, Nazar
Battistoni, Giuseppe
Belcari, Nicola
Bellinzona, Elettra
Biondi, Silvia
Bisogni, Maria Giuseppina
Bruni, Graziano
Carra, Pietro
Cavanna, Francesca
Cerello, Piergiorgio
Ciarrocchi, Esther
Clozza, Alberto
Colombi, Sofia
De Gregorio, Angelica
De Lellis, Giovanni
Del Guerra, Alberto
De Simoni, Micol
Di Crescenzo, Antonia
Di Ruzza, Benedetto
Donetti, Marco
Dong, Yunsheng
Durante, Marco
Faccini, Riccardo
Ferrero, Veronica
Finck, Christian
Fiorina, Elisa
Fischetti, Marta
Francesconi, Marco
Franchini, Matteo
Franciosini, Gaia
Galati, Giuliana
Galli, Luca
Gentile, Valerio
Giraudo, Giuseppe
Hetzel, Ronja
Iarocci, Enzo
Kraan, Aafke Christine
La Tessa, Chiara
Laurenza, Martina
Lauria, Adele
Lopez Torres, Ernesto
Manna, Alice
Marafini, Michela
Massa, Maurizio
Massimi, Cristian
Mattei, Ilaria
Mereghetti, Alessio
Mengarelli, Alberto
Moggi, Andrea
Montesi, Maria Cristina
Morone, Maria Cristina
Morrocchi, Matteo
Muraro, Silvia
Pastore, Alessandra
Pastrone, Nadia
Patera, Vincenzo
Pennazio, Francesco
Pullia, Marco
Ramello, Luciano
Reidel, Claire-Anne
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
Tommasino, Francesco
Toppi, Marco
Traini, Giacomo
Trigilio, Antonio
Ubaldi, Giacomo
Tioukov, Valeri
Valetti, Alessandro
Valle, Serena Marta
Vanstalle, Marie
Villa, Mauro
Weber, Ulrich
Zarrella, Roberto
Zoccoli, Antonio
… (more) - Abstract:
- 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 cm 2 ) 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 isAbstract: 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 cm 2 ) 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. … (more)
- Is Part Of:
- Journal of instrumentation. Volume 17:Number 12(2022)
- Journal:
- Journal of instrumentation
- Issue:
- Volume 17:Number 12(2022)
- Issue Display:
- Volume 17, Issue 12 (2022)
- Year:
- 2022
- Volume:
- 17
- Issue:
- 12
- Issue Sort Value:
- 2022-0017-0012-0000
- Page Start:
- Page End:
- Publication Date:
- 2022-12-01
- Subjects:
- Particle tracking detectors -- Particle tracking detectors (Solid-state detectors) -- Si microstrip and pad detectors -- Solid state detectors
Scientific apparatus and instruments -- Periodicals
502.84 - Journal URLs:
- http://iopscience.iop.org/1748-0221 ↗
http://ioppublishing.org/ ↗ - DOI:
- 10.1088/1748-0221/17/12/P12012 ↗
- Languages:
- English
- ISSNs:
- 1748-0221
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
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- British Library DSC - BLDSS-3PM
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