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CERN Document Server 找到 23 筆記錄  1 - 10下一個最後  跳到記錄: 檢索需時 0.71 秒. 
1.
The μ-RWELL technology for tracking apparatus in High Energy Physics / Alì, M (INFN, Bologna) ; Bencivenni, G (Frascati) ; Bondì, M (INFN, Catania) ; Cerioni, S (Frascati) ; Cibinetto, G (INFN, Ferrara) ; D'Angelo, A (INFN, Rome2) ; De Lucia, E (Frascati) ; De Oliveira, R (CERN) ; Di Bari, D (Frascati) ; Farinelli, R (INFN, Ferrara) et al.
The micro-Resitive WELL (μ-RWELL) is a Micro Pattern Gas Detector (MPGD) that inherits some of the best characteristics of existing MPGDs, like GEMs and MicroMegas, while simplifying the detector construction. A significant progress towards large-scale applications has been achieved through the consolidation and industrial cost-effective manufacturing of this technology. [...]
2024 - 3 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 1069 (2024) 169831 Fulltext: PDF;
In : 16th Pisa Meeting on Advanced Detectors, La Biodola, Isola D'elba, Italy, 26 May - 1 Jun 2024, pp.169831
2.
Thermal neutron detection based on resistive gaseous devices / Bencivenni, G (Frascati) ; Balossino, I (INFN, Ferrara ; Ferrara U.) ; Cibinetto, G (INFN, Ferrara ; Ferrara U.) ; De Oliveira, R (CERN) ; Farinelli, R (INFN, Ferrara ; Ferrara U.) ; Felici, G (Frascati) ; Garzia, I (INFN, Ferrara ; Ferrara U.) ; Gatta, M (Frascati) ; Giovannetti, M (Frascati) ; Gramigna, S (INFN, Ferrara ; Ferrara U.) et al.
In the framework of the uRANIA (u-Rwell Advanced Neutron Imaging Apparatus) project, we are developing innovative thermal neutron detectors based on resistive gaseous devices such as micro-Resistive WELL (μ-RWELL) and surface Resistive Plate Counter (sRPC).The μ-RWELL is a single amplification stage resistive MPGD developed for HEP applications. The amplification stage, based on the same Apical® foil used for the manufacturing of the GEM, is embedded through a resistive layer in the readout board [...]
2023 - 4 p. - Published in : EPJ Web Conf. 288 (2023) 06012 Fulltext: PDF;
In : Advancements in Nuclear Instrumentation Measurement Methods and their Applications (ANIMMA 2023), Lucca, Italy, 12 - 16 Jun 2023, pp.06012
3.
Euclid preparation. Sensitivity to non-standard particle dark matter model / Euclid Collaboration
The Euclid mission of the European Space Agency will provide weak gravitational lensing and galaxy clustering surveys that can be used to constrain the standard cosmological model and its extensions, with an opportunity to test the properties of dark matter beyond the minimal cold dark matter paradigm. [...]
arXiv:2406.18274 ; TTK-24-26.
- 31.
Fulltext
4.
Euclid. I. Overview of the Euclid mission / Euclid Collaboration
The current standard model of cosmology successfully describes a variety of measurements, but the nature of its main ingredients, dark matter and dark energy, remains unknown. [...]
arXiv:2405.13491.
- 94.
Fulltext
5.
Euclid. IV. The NISP Calibration Unit / Euclid Collaboration
The near-infrared calibration unit (NI-CU) on board Euclid's Near-Infrared Spectrometer and Photometer (NISP) is the first astronomical calibration lamp based on light-emitting diodes (LEDs) to be operated in space. [...]
arXiv:2405.13494.
- 21.
Fulltext
6.
DRD1 Extended R&D Proposal / Colaleo, Anna (Universita e INFN, Bari (IT)) ; Ropelewski, Leszek (CERN) ; Abbrescia, Marcello (INFN Bari) ; Aielli, Giulio (INFN Tor Vergata) ; Baracchini, Elisabetta (GSSI) ; Bortfeldt, Jonathan (LMU) ; Borysova, Maryna (WIS) ; Breskin, Amos (WIS) ; Bregant, Marco (Instituto de Física da Universidade de São Paulo) ; Brunbauer, Florian Maximilian (CERN) et al.
This document realized in the framework of the newly established Gaseous Detector R&D Collaboration (DRD1), presents a comprehensive overview of the current state-of-the-art and the challenges related to various gaseous detector concepts and technologies. [...]
CERN-DRDC-2024-003 ; DRDC-P-DRD1.
- 2024.
DRD1 Extended R&D Proposal
7.
CEPC Technical Design Report: Accelerator / CEPC Study Group Collaboration
The Circular Electron Positron Collider (CEPC) is a large scientific project initiated and hosted by China, fostered through extensive collaboration with international partners. The complex comprises four accelerators: a 30 GeV Linac, a 1.1 GeV Damping Ring, a Booster capable of achieving energies up to 180 GeV, and a Collider operating at varying energy modes (Z, W, H, and ttbar). [...]
arXiv:2312.14363; IHEP-CEPC-DR-2023-01; IHEP-AC-2023-01.- 2024-06-03 - 1106 p. - Published in : Radiat. Detect. Technol. Methods 8 (2024) 1-1105 Fulltext: 2312.14363 - PDF; Publication - PDF;
8.
Track-based alignment for the BESIII CGEM detector in the cosmic-ray test / Guo, A.Q. (Lanzhou, Inst. Modern Phys. ; Beijing, GUCAS) ; Wu, L.H. (Beijing, Inst. High Energy Phys. ; Beijing, GUCAS) ; Wang, L.L. (Beijing, Inst. High Energy Phys. ; Beijing, GUCAS) ; Mitchell, R.E. (Indiana U.) ; Amoroso, A. (INFN, Turin ; Turin U.) ; Ferroli, R. Baldini (Frascati) ; Balossino, I. (INFN, Ferrara ; Beijing, GUCAS) ; Bertani, M. (Frascati) ; Bettoni, D. (INFN, Ferrara) ; Bortone, A. (INFN, Turin ; Turin U.) et al.
The Beijing Electron Spectrometer III (BESIII) is a multipurpose detector operating on the Beijing Electron Positron Collider II (BEPCII). [...]

Fulltext
9.
MPGDs for tracking and Muon detection at future high energy physics colliders / Black, K. (U. Wisconsin, Madison (main)) ; Colaleo, A. (U. Bari (main) ; INFN, Bari) ; Aimè, C. (U. Pavia (main) ; INFN, Pavia) ; Alviggi, M. (Naples, Inst. U. Navale ; INFN, Naples) ; Aruta, C. (U. Bari (main) ; INFN, Bari) ; Bianco, M. (CERN) ; Balossino, I. (INFN, Ferrara) ; Bencivenni, G. (Frascati) ; Bertani, M. (Frascati) ; Braghieri, A. (INFN, Pavia) et al.
In the next years, the energy and intensity frontiers of the experimental Particle Physics will be pushed forward with the upgrade of existing accelerators (LHC at CERN) and the envisaged construction of new machines at energy scales up to hundreds TeV or with unprecedented intensity (FCC-hh, FCC-ee, ILC, Muon Collider). [...]
arXiv:2203.06525.
- 84 p.
eConf - Fulltext
10.
On the space resolution of the μ-RWELL / Bencivenni, G. (Frascati) ; Capoccia, C. (Frascati) ; Cibinetto, G. (INFN, Ferrara) ; de Oliveira, R. (CERN) ; Farinelli, R. (INFN, Ferrara) ; Felici, G. (Frascati) ; Gatta, M. (Frascati) ; Giovannetti, M. (Frascati ; Rome U., Tor Vergata) ; Lavezzi, L. (Turin U. ; INFN, Turin) ; Morello, G. (Frascati) et al.
In MPGD detectors evaluation of the space resolution with the charge centroid (CC) method provides large uncertainty when the impinging particle is not perpendicular to the readout plane. An improvement of the position reconstruction, and thus of the space resolution, is represented by the $\mu$TPC algorithm. [...]
arXiv:2007.03223.- 2021-08-13 - 13 p. - Published in : JINST 16 (2021) P08036 Fulltext: document - PDF; 2007.03223 - PDF;

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