Innovative Project: HASPIDE - Silicon Pixel Detector for Radiation
The HASPIDE project aims to utilize Si-H as a detection material for various types of ionizing radiation. With a focus on different detection regimes and applications including space technology and neutron detection, this project explores the potential of a radiation-resistant material for accurate radiation measurement and dosimetry. Led by Roberto Catalano and a team of researchers from various institutions, the project outlines specific objectives and activities for its realization by 2024.
Download Presentation
Please find below an Image/Link to download the presentation.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.
You are allowed to download the files provided on this website for personal or commercial use, subject to the condition that they are used lawfully. All files are the property of their respective owners.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.
E N D
Presentation Transcript
HASPIDE HASPIDE Hamorphous Silicon Pixel Detector for ionizing radiation Hamorphous Silicon Pixel Detector for ionizing radiation Roberto Catalano
Proponenti Proponenti Durata esperimento: 3 anni (2022-2024) Responsabile Nazionale: Dott. Leonello Servoli (INFN Perugia) Responsabile Locale: Roberto Catalano, Giacomo Cuttone Unit partecipanti: INFN Perugia, INFN Firenze, INFN-LNS, INFN Milano, INFN Torino, INFN Lecce Coinvolgimenti esterni alla CSN5: Ecole Polytechnique Federale Lausanne (EPFL) University of Wollongong (UOW) WP1 Deposition process and device fabrication (PG, LE, EPFL) WP2 Electronic and DAQ (MI, PG, LNS, TO) WP3 Device simulation (PG, LNS, UOW) WP4 Beam monitoring (FI, LNS, PG, UOW) WP5 Space applications (FI) WP6 Neutron detection (LE) WP7 Project Management (PG) CDL_Luglio_2023
Obiettivi generali Obiettivi generali The HASPIDE project wants to explore the possibility to use a:Si-H as a detection mate- rial for ionizing radiation of different types (photons, electrons, protons, ions, neu- trons). Two detection regimes should be tackled: the continuous or pulsed intense radiation flux (e.g., FLASH-RT); the pulse-by-pulse mode, typical of space applications or neutron detection. The material is very radiation-resistant, could be deposited as a thin layer of few mi- crometers over many substrates, including flexible ones like Kapton, that potentially opens the way toward many important applications: ionizing radiation flux measurement and dosimetry of charged and photon beams, both clinical and non-clinical ones (accuracy 2% without perturbing the incoming radia- tion beam); detection of cosmic radiation in the spatial environment; neutron detection after deposition of a thin 10B converter layer. CDL_Luglio_2023
Attivit 2024 Attivit 2024 Main goal: Realize an electronic chain based on the TERA-08 chip able to work in two dif- ferent configurations: continuous and pulsed proton beams. TERA-08 chip was realized by INFN-TO and available on the market through the DE.TEC.TOR. s.r.l. company It was designed for continuous beams LNS-INFN group modified it for pulsed beams (laser-driven applications) Acquisition by means of a PXIe FPGA 782x board We will use LabView to configure the FPGA and thus set the characteristics of the acquisition system (as the externally settable parameters of TERA08). In addition, LabView enables on-line data proces- sing, resulting in a significant spare of time. 1-year post-doc position (hardware assembling, software developing, electronic read-out characterization, expe- rimental runs with pulsed beams) Thanks to: Antonino Amato (INFN-LNS) CDL_Luglio_2023
Budget e FTE Budget e FTE Nome FTE Consumo Catalano Roberto 0.10 Cirrone Giuseppe A. Pablo 0.15 Inventario Post-Doc 1.00 Missioni Test elettronica 3 k Sp Servizi Totale 1.25 Totale 3 k CDL_Luglio_2023
