Your search keyword '"Di Meco, E."' showing total 4 results

1. Developing an alternative calorimeter solution for the future Muon Collider: The Crilin design.

Author

Cantone, C., Cemmi, A., Ceravolo, S., Ciccarella, V., Colao, F., Di Meco, E., Di Sarcina, I., Diociaiuti, E., Gargiulo, R., Gianotti, P., Giraldin, C., Leonardi, E., Lucchesi, D., Moulson, M., Paesani, D., Pastrone, N., Pezzullo, G., Saputi, A., Sarra, I., and Scifo, J.

Subjects

*RADIATION tolerance, *COLLIDERS (Nuclear physics), *CALORIMETERS, *TESTING laboratories, *ELECTRONS

Abstract

The Crilin calorimeter represents a novel approach in the development of electromagnetic calorimeters for future colliders, especially for a Muon Collider. This paper details the design and performance of the innovative semi-homogeneous Crilin calorimeter, highlighting its capabilities in mitigating beam-induced backgrounds (BIB) while maintaining excellent time resolution (less than 50 ps), longitudinal segmentation, and fine granularity. These performances are achieved throughout a series of stackable and interchangeable lead fluoride (PbF 2) crystal matrices readout by surface-mount UV-extended Silicon Photo-multipliers. Simulated and experimental results demonstrate the Crilin design's potential to work as an efficient and cost-effective alternative to traditional electromagnetic calorimeters. Crilin radiation tolerance is discussed, as measured in several irradiation campaigns, as well as timing performances during a beam test at CERN-H2 with 120 GeV electrons for the latest prototype, Proto-1. Additionally, a description of the results from a recent beam test conducted at the LNF Beam Test Facility with 450 MeV electrons is provided, aiming to measure light yield losses due to irradiation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Development of nanocomposite scintillators for use in high-energy physics.

Author

Antonelli, A., Auffray, E., Brovelli, S., Bruni, F., Campajola, M., Carsi, S., Carulli, F., De Nardo, G., Di Meco, E., Diociaiuti, E., Erroi, A., Francesconi, M., Frank, I., Kholodenko, S., Kratochwil, N., Leonardi, E., Lezzani, G., Mangiacavalli, S., Martellotti, S., and Mirra, M.

Subjects

*LIGHT emitting diodes, *SEMICONDUCTOR nanocrystals, *QUANTUM dots, *NANOSTRUCTURED materials, *NANOCOMPOSITE materials

Abstract

Semiconductor nanocrystals ("quantum dots") are light emitters with high quantum yield that are relatively easy to manufacture. There is therefore much interest in their possible application for the development of high-performance scintillators for use in high-energy physics. However, few previous studies have focused on the response of these materials to high-energy particles. To evaluate the potential for the use of nanocomposite scintillators in calorimetry, we are performing side-by-side tests of fine-sampling shashlyk calorimeter prototypes with both conventional and nanocomposite scintillators using electron and minimum-ionizing particle beams, allowing direct comparison of the performance obtained. [ABSTRACT FROM AUTHOR]

Published

2024

3. Readout studies for the HIKE main electromagnetic calorimeter.

Author

Francesconi, M., Ambrosino, F., Antonelli, A., De Nardo, G., Di Donato, C., Di Meco, E., Diociaiuti, E., Fiorenza, R., Giordano, R., Massarotti, P., Merola, M., Mirra, M., Martellotti, S., Moulson, M., Napolitano, M., Paesani, D., Rosa, I., Saracino, G., Sarra, I., and Soldani, M.

Subjects

*DIGITAL-to-analog converters, *PULSE generators, *FEATURE extraction, *SPATIAL resolution, *KAONS

Abstract

The High-Intensity Kaon Experiment (HIKE) is a proposed future kaon experiment designed for the CERN SPS accelerator. To cope with a planned increase of beam intensity by a factor of 4 with respect to the current NA62 experiment, the new Main Electromagnetic Calorimeter (MEC) has to provide a similar improvement in time resolution over the current Liquid Krypton calorimeter, down to ≈ 100 ps for a 40 GeV photon, while maintaining a comparable energy and spatial resolution. To achieve these goals, the planned detector consists of a shashlik calorimeter paired with high-resolution analog to digital converter for both energy deposit and arrival time estimates, operating at fast sample rates (∼ 1 GHz). This contribution describes a prototype of the readout system using commercial "off-the-shelf" boards. In particular, we focused on feature extraction and tested it using a pulse generator. We included a data readout logic based on the TCP/IP protocol allows for easy deployment in beam tests. [ABSTRACT FROM AUTHOR]

Published

2024

4. Crilin: A CRystal calorImeter with Longitudinal InformatioN for a future Muon Collider.

Author

Ceravolo, S., Colao, F., Curatolo, C., Di Meco, E., Diociaiuti, E., Lucchesi, D., Martellotti, S., Moulson, M., Paesani, D., Pastrone, N., Saputi, A., Sarra, I., Sestini, L., and Tagnani, D.

Subjects

*MUONS, *CRYSTALS, *CALORIMETERS, *DETECTORS, *PHOTOMULTIPLIERS, *SILICON

Abstract

Detectors for new energy frontier experiments require excellent spatial, time, and energy resolutions to resolve the structure of collimated high-energy jets. In a future Muon Collider, the beam-induced backgrounds represent the main challenge for detector design and event reconstruction. Our proposal – Crilin – consists in a semi-homogeneous Cherenkov electromagnetic calorimeter based on PbF 2 crystals with surface-mount UV-extended Silicon Photomultipliers readout. [ABSTRACT FROM AUTHOR]

Published

2023