Angelo Rivetti
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View article: The simulation chain for the Terzina Cherenkov telescope on board the NUSES space mission
The simulation chain for the Terzina Cherenkov telescope on board the NUSES space mission Open
The Terzina telescope is designed to detect ultra-high energy cosmic rays (UHECRs) and Earth-skimming neutrinos from a 550 km low-Earth orbit (LEO) by observing Cherenkov light emitted by Extensive Air Showers (EAS) in the Earth's atmosphe…
View article: The simulation chain for the Terzina Cherenkov telescope on board the NUSES space mission
The simulation chain for the Terzina Cherenkov telescope on board the NUSES space mission Open
The Terzina telescope is designed to detect ultra-high energy cosmic rays (UHECRs) and Earth-skimming neutrinos from a 550 km low-Earth orbit (LEO) by observing Cherenkov light emitted by Extensive Air Showers (EAS) in the Earth’s atmosphe…
View article: Performance Results of the first version of the MIZAR ASIC for the PBR mission
Performance Results of the first version of the MIZAR ASIC for the PBR mission Open
The Multi-channel Intergrated Zone-sampling Analogue-memory based Readout (MIZAR) ASIC is a new type of front-end electronics which has been developed for the detection of the optical Cherenkov signals by Extensive Air Showers directly obs…
View article: Monitoring Gamma Ray Bursts with the Zirè instrument onboard the NUSES space mission
Monitoring Gamma Ray Bursts with the Zirè instrument onboard the NUSES space mission Open
The Zirè experiment onboard NUSES space mission has several science goals, including the measurements of charged particles and light nuclei from few up to hundreds of MeVs, for the study of low-energy cosmic rays, space weather phenomena, …
The Zirè experiment on board the NUSES space mission Open
The Zirè detector is one of the scientific payloads of the NUSES satellite, which is currently under construction. Zirè aims to measure electrons, protons, and light nuclei in a kinetic energy range spanning from a few MeV to several hundr…
View article: Numerical Proof-of-Concept of Monolithic AC-LGAD Detectors for 4D Particle Tracking
Numerical Proof-of-Concept of Monolithic AC-LGAD Detectors for 4D Particle Tracking Open
We present the numerical proof of a new sensor concept, based on the Resistive AC-Coupled Silicon Detectors (RSDs) paradigm and standard CMOS process, which benefits from having a 100% fill factor and embedded front-end electronics. The co…
View article: First results on monolithic CMOS detector with internal gain
First results on monolithic CMOS detector with internal gain Open
In this paper we report on a set of characterisations carried out on the first monolithic LGAD prototype integrated in a customised 110 nm CMOS process having a depleted active volume thickness of 48 μm. This prototype is formed by a pixel…
View article: First results on monolithic CMOS detector with internal gain
First results on monolithic CMOS detector with internal gain Open
In this paper we report on a set of characterisations carried out on the first monolithic LGAD prototype integrated in a customised 110 nm CMOS process having a depleted active volume thickness of 48 $μ$m. This prototype is formed by a pix…
View article: The NUSES space mission
The NUSES space mission Open
NUSES is a new space mission project aimed at studying cosmic and gamma rays, high-energy astrophysical neutrinos, the Sun-Earth environment, space weather, and magnetosphere-ionospherelithosphere coupling. Additionally, the NUSES mission …
View article: Preliminary Characterization of an Active CMOS Pad Detector for Tracking and Dosimetry in HDR Brachytherapy
Preliminary Characterization of an Active CMOS Pad Detector for Tracking and Dosimetry in HDR Brachytherapy Open
We assessed the accuracy of a prototype radiation detector with a built in CMOS amplifier for use in dosimetry for high dose rate brachytherapy. The detectors were fabricated on two substrates of epitaxial high resistivity silicon. The rad…
View article: The Terzina instrument on board the NUSES space mission
The Terzina instrument on board the NUSES space mission Open
In this paper we will introduce the Terzina instrument, which is one of the\ntwo scientific payloads of the NUSES satellite mission. NUSES serves as a\ntechnological pathfinder, hosting a suite of innovative instruments designed\nfor the i…
Design Review of 65/130 NM RUN Open
WP11.3 aims at developing ASICs in 65/130nm technology for the readout of detectors developed by the other AIDA-INOVA WPs. An engineering run in TSMC 130nm is foreseen early 2023 to provide such ASICs. The chips ready to go in this fabrica…
View article: Track-based alignment for the BESIII CGEM detector in the cosmic-ray test
Track-based alignment for the BESIII CGEM detector in the cosmic-ray test Open
The Beijing Electron Spectrometer III (BESIII) is a multipurpose detector operating on the Beijing Electron Positron Collider II (BEPCII). After more than ten year's operation, the efficiency of the inner layers of the Main Drift Chamber (…
View article: In-vivo range verification analysis with in-beam PET data for patients treated with proton therapy at CNAO
In-vivo range verification analysis with in-beam PET data for patients treated with proton therapy at CNAO Open
Morphological changes that may arise through a treatment course are probably one of the most significant sources of range uncertainty in proton therapy. Non-invasive in-vivo treatment monitoring is useful to increase treatment quality. The…
View article: Localization of anatomical changes in patients during proton therapy with in‐beam PET monitoring: A voxel‐based morphometry approach exploiting Monte Carlo simulations
Localization of anatomical changes in patients during proton therapy with in‐beam PET monitoring: A voxel‐based morphometry approach exploiting Monte Carlo simulations Open
Purpose In‐beam positron emission tomography (PET) is one of the modalities that can be used for in vivo noninvasive treatment monitoring in proton therapy. Although PET monitoring has been frequently applied for this purpose, there is sti…
View article: Detection of Interfractional Morphological Changes in Proton Therapy: A Simulation and In Vivo Study With the INSIDE In-Beam PET
Detection of Interfractional Morphological Changes in Proton Therapy: A Simulation and In Vivo Study With the INSIDE In-Beam PET Open
In particle therapy, the uncertainty of the delivered particle range during the patient irradiation limits the optimization of the treatment planning. Therefore, an in vivo treatment verification device is required, not only to improve the…
View article: Roadmap toward the 10 ps time-of-flight PET challenge
Roadmap toward the 10 ps time-of-flight PET challenge Open
Since the seventies, positron emission tomography (PET) has become an invaluable medical molecular imaging modality with an unprecedented sensitivity at the picomolar level, especially for cancer diagnosis and the monitoring of its respons…
View article: The first ASIC prototype of a 28 nm time-space front-end electronics for real-time tracking
The first ASIC prototype of a 28 nm time-space front-end electronics for real-time tracking Open
A front-end ASIC for 4D tracking is presented. The prototype includes the block necessary to build a pixel front-end chain for timing measurement, as independent circuits. The architecture includes a charge-sensitive amplifier, a discrimin…
Test beam results of a Cylindrical GEM detector for the BESIII experiment Open
Gas detector are very light instrument used in high energy physics to measure the particle properties: position and momentum. Through high electric field is possible to use the Gas Electron Multiplier (GEM) technology to detect the charged…
New needs and directions in microelectronics and ultrafast electronics Open
High granularity radiation sensors readout by custom integrated circuits play a fundamental role in modern particle and nuclear physics experiments. The performance improvements made possible by these systems have been recognized also in o…
INSIDE in-beam positron emission tomography system for particle range monitoring in hadrontherapy Open
The quality assurance of particle therapy treatment is a fundamental issue that can be addressed by developing reliable monitoring techniques and indicators of the treatment plan correctness. Among the available imaging techniques, positro…