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CERN Document Server 30 のレコードが見つかりました。  1 - 10次最後  レコードへジャンプ: 検索にかかった時間: 0.80 秒 
1.
PICOSEC-Micromegas Detector, an innovative solution for Lepton Time Tagging / Kallitsopoulou, A. (IRFU, Saclay) ; Aleksan, R. (IRFU, Saclay) ; Angelis, Y. (Aristotle U., Thessaloniki) ; Aune, S. (IRFU, Saclay) ; Bortfeldt, J. (Munich U.) ; Brunbauer, F. (CERN) ; Brunoldi, M. (Pavia U. ; INFN, Pavia) ; Chatzianagnostou, E. (Aristotle U., Thessaloniki) ; Datta, J. (SUNY, Stony Brook) ; Desforge, D. (IRFU, Saclay) et al.
The PICOSEC-Micromegas (PICOSEC-MM) detector is a novel gaseous detector designed for precise timing resolution in experimental measurements. It eliminates time jitter from charged particles in ionization gaps by using extreme UV Cherenkov light emitted in a crystal, detected by a Micromegas photodetector with an appropriate photocathode. [...]
arXiv:2411.02532.- 2024-10-16 - 4 p. Fulltext: PDF;
2.
The ATLAS experiment at the CERN Large Hadron Collider: a description of the detector configuration for Run 3 / ATLAS Collaboration
The ATLAS detector is installed in its experimental cavern at Point 1 of the CERN Large Hadron Collider. During Run 2 of the LHC, a luminosity of $\mathcal{L}=2\times 10^{34}\mathrm{cm}^{-2}\mathrm{s}^{-1}$ was routinely achieved at the start of fills, twice the design luminosity. [...]
arXiv:2305.16623; CERN-EP-2022-259.- Geneva : CERN, 2024-05-23 - 233 p. - Published in : JINST 19 (2024) P05063 Fulltext: 2305.16623 - PDF; document - PDF; External link: Previous draft version
In : The Large Hadron Collider and The Experiments for Run 3
3.
X-ray imaging with Micromegas detectors with optical readout / Cools, A. (IRFU, Saclay) ; Aune, S. (IRFU, Saclay) ; Beau, F. (Saclay) ; Brunbauer, F.M. (CERN) ; Benoit, T. (IRFU, Saclay) ; Desforge, D. (IRFU, Saclay) ; Ferrer-Ribas, E. (IRFU, Saclay) ; Kallitsopoulou, A. (IRFU, Saclay) ; Malgorn, C. (Saclay) ; Oliveri, E. (CERN) et al.
In the last years, optical readout of Micromegas gaseous detectors has been achieved by implementing a Micromegas detector on a glass anode coupled to a CMOS camera. Effective X-ray radiography was demonstrated using integrated imaging approach. [...]
arXiv:2303.17444.- 2023-06-16 - 6 p. - Published in : JINST 18 (2023) C06019 Fulltext: PDF;
In : 7th International Conference on Micro Pattern Gaseous Detectors 2022 (MPGD 2022), Rehovot, Israel, 11 - 16 Dec 2022, pp.C06019
4.
Towards robust PICOSEC Micromegas precise timing detectors / Lisowska, M. (CERN ; IRFU, Saclay) ; Angelis, Y. (Aristotle U., Thessaloniki) ; Aune, S. (IRFU, Saclay) ; Bortfeldt, J. (Munich U.) ; Brunbauer, F. (CERN) ; Chatzianagnostou, E. (Aristotle U., Thessaloniki) ; Dehmelt, K. (SUNY, Stony Brook) ; Desforge, D. (IRFU, Saclay) ; Fanourakis, G. (American Coll. of Greece) ; Floethner, K.J. (CERN ; Bonn U., HISKP) et al.
The PICOSEC Micromegas (MM) detector is a precise timing gaseous detector consisting of a Cherenkov radiator combined with a photocathode and a MM amplifying structure. A 100-channel non-resistive PICOSEC MM prototype with 10x10 cm^2 active area equipped with a Cesium Iodide (CsI) photocathode demonstrated a time resolution below 18 ps. [...]
arXiv:2303.18141; JLAB-PHY-23-3798.- 2023-07-28 - 8 p.
- Published in : JINST Fulltext: 2303.18141 - PDF; FERMILAB-PUB-23-158-V - PDF; Publication - PDF; External links: JLab Document Server; Fermilab Library Server
In : 7th International Conference on Micro Pattern Gaseous Detectors 2022 (MPGD 2022), Rehovot, Israel, 11 - 16 Dec 2022, pp.C07018
5.
A large area 100-channel PICOSEC Micromegas detector with time resolution at the 20 ps level / Utrobicic, A. (Boskovic Inst., Zagreb) ; Angelis, Y. (Aristotle U., Thessaloniki) ; Aune, Stephan ; Bortfeldt, J. (Munich U.) ; Brunbauer, F. (CERN) ; Chatzianagnostou, E. (Aristotle U., Thessaloniki) ; Dehmelt, K. (SUNY, Stony Brook) ; Desforge, Daniel ; Fanourakis, G. (American Coll. of Greece) ; Floethner, K.J. (CERN ; Bonn U., HISKP) et al.
The PICOSEC Micromegas precise timing detector is based on a Cherenkov radiator coupled to a semi-transparent photocathode and a Micromegas amplification structure. The first proof of concept single-channel small area prototype was able to achieve time resolution below 25 ps. [...]
arXiv:2304.00056; FERMILAB-PUB-23-159-V; JLAB-PHY-23-3799.- 2023-07-12 - 10 p.
- Published in : JINST Fulltext: FERMILAB-PUB-23-159-V - PDF; e11a25382b5d2a8c79973558bc560c53 - PDF; 2304.00056 - PDF; External links: JLab Document Server; Fermilab Library Server
In : 7th International Conference on Micro Pattern Gaseous Detectors 2022 (MPGD 2022), Rehovot, Israel, 11 - 16 Dec 2022
6.
Precise timing and recent advancements with segmented anode PICOSEC Micromegas prototypes / PICOSEC-Micromegas Collaboration
Timing information in current and future accelerator facilities is important for resolving objects (particle tracks, showers, etc.) in extreme large particles multiplicities on the detection systems. The PICOSEC Micromegas detector has demonstrated the ability to time 150 GeV muons with a sub-25 ps precision. [...]
arXiv:2211.12618.- 2022-10-11 - 7 p. - Published in : JINST Fulltext: PDF;
7.
Neutron and beta imaging with Micromegas detectors with optical readout / Cools, A (IRFU, Saclay) ; Aune, S (IRFU, Saclay) ; Beau, F (IJCLab, Orsay) ; Benali, M (LIST, Saclay) ; Brunbauer, F M (CERN) ; Benoit, T (IRFU, Saclay) ; Desforge, D (IRFU, Saclay) ; Ferrer-Ribas, E (IRFU, Saclay) ; Malgorn, C (IJCLab, Orsay) ; Oliveri, E (CERN) et al.
Recent developments have shown that coupling a Micromegas gaseous detector on a glass substrate with a transparent anode and a CMOS camera enables the optical readout of Micromegas detectors with a good spatial resolution, demonstrating that the glass Micromegas detector is well-suited for imaging. This feasibility test has been effectuated with low-energy X-ray photons also permitting energy resolved imaging. [...]
2023 - 6 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 1048 (2023) 167910
In : 9th Conference on New Developments in Photodetection, Troyes, France, 4 - 8 Jul 2022, pp.167910
8.
PICOSEC-Micromegas: Robustness measurements and study of different photocathode materials / Sohl, L (IRFU, Saclay) ; Bortfeldt, J (CERN) ; Brunbauer, F (CERN) ; David, C (CERN) ; Desforge, D (IRFU, Saclay) ; Fanourakis, G (Democritos Nucl. Res. Ctr.) ; Franchi, J (CERN) ; Gallinaro, M (LIP, Lisbon) ; García, F (Helsinki U.) ; Giomataris, I (IRFU, Saclay) et al.
Detectors with a time resolution of 20-30 ps and a reliable performance in high particles flux environments are necessary for an accurate vertex separation in future HEP experiments. The PICOSEC-Micromegas detector concept is a Micro-Pattern Gaseous Detector (MPGD) based solution addressing this particular challenge. [...]
2019 - 7 p. - Published in : J. Phys. : Conf. Ser. 1312 (2019) 012012 Fulltext from Publisher: PDF;
In : 9th Symposium on Large TPCs for Low-Energy Rare Event Detection, Paris, France, 12 - 14 Dec 2018, pp.012012
9.
Snowmass 2021 White Paper Instrumentation Frontier 05 - White Paper 1: MPGDs: Recent advances and current R&D / Dehmelt, K. (Stony Brook U.) ; Della Pietra, M. (Naples U. ; INFN, Naples) ; Muller, H. (Bonn U. ; CERN) ; Tzamarias, S.E. (Aristotle U., Thessaloniki) ; White, A. (Texas U., Arlington) ; White, S. (CERN ; Virginia U.) ; Zhang, Z. (USTC, Hefei) ; Alviggi, M. (Naples U. ; INFN, Naples) ; Angelis, I. (Aristotle U., Thessaloniki) ; Aune, S. (Saclay) et al.
This paper will review the origins, development, and examples of new versions of Micro-Pattern Gas Detectors. [...]
arXiv:2203.06562.
- 58 p.
eConf - Fulltext
10.
The large inner Micromegas modules for the Atlas Muon Spectrometer Upgrade: construction, quality control and characterization / Allard, J. (IRFU, Saclay) ; Andari, N. (IRFU, Saclay) ; Anfreville, M. (IRFU, Saclay) ; Attié, D. (IRFU, Saclay) ; Aubernon, E. (IRFU, Saclay) ; Aune, S. (IRFU, Saclay) ; Bachacou, H. (IRFU, Saclay) ; Balli, F. (IRFU, Saclay) ; Bauer, F. (IRFU, Saclay) ; Beltramelli, J. (IRFU, Saclay) et al.
The steadily increasing luminosity of the LHC requires an upgrade with high-rate and high-resolution detector technology for the inner end cap of the ATLAS muon spectrometer: the New Small Wheels (NSW). In order to achieve the goal of precision tracking at a hit rate of about 15 kHz/cm$^2$ at the inner radius of the NSW, large area Micromegas quadruplets with 100 \microns spatial resolution per plane have been produced. [...]
arXiv:2105.13709.- 2022-03-01 - 43 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 1026 (2022) 166143 Fulltext: 1-s2.0-S0168900221010330-main - PDF; 2105.13709 - PDF;

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