CERN Accelerating science

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1.
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 L=2×1034cm2s1 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
2.
ATLAS “Baby-DEMO” / Zwalinski, L (CERN) ; Bojdol, K (RSNC, Poznan) ; Bortolin, C (CERN) ; Chmielewski, D (Jagiellonian U.) ; Dziurdzia, P (CERN) ; Giakoumi, D (CERN) ; Godlewski, J (Cracow, INP) ; Ilyashenko, I (PNPI, CSTD) ; Kalinowski, M (CERN) ; Kantor, R (Cracow Tech. U.) et al.
Evaporative CO 2 has been selected as the main detector cooling technology for the Phase II upgrade of the LHC silicon detectors at CERN. In order to provide input to the ATLAS Pixel TDR about the minimum attainable cooling temperature by the end of 2017, ATLAS, with a contribution of CMS, has launched a dedicated detector cooling R&D; study nick-named Baby-DEMO. [...]
2019 - 2 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 936 (2019) 648-649 Fulltext from Publisher: PDF;
In : Frontier Detectors for Frontier Physics: XIV Pisa Meeting on Advanced Detectors, La Biodola, Isola D'elba, Italy, 27 May - 2 Jun 2018, pp.648-649
3.
Silicon detectors for the sLHC / Affolder, A (Liverpool U.) ; Aleev, A (Moscow, ITEP) ; Allport, P P (Liverpool U.) ; Andricek, L (Munich, Max Planck Inst.) ; Artuso, M (Syracuse U.) ; Balbuena, J P (Barcelona, Inst. Microelectron.) ; Barabash, L (Kiev, INR) ; Barber, T (Freiburg U.) ; Barcz, A (Inst. Electron Tech., Warsaw ; Warsaw, Inst. Phys. Chem.) ; Bassignana, D (Barcelona, Inst. Microelectron.) et al.
In current particle physics experiments, silicon strip detectors are widely used as part of the inner tracking layers. A foreseeable large-scale application for such detectors consists of the luminosity upgrade of the Large Hadron Collider (LHC), the super-LHC or sLHC, where silicon detectors with extreme radiation hardness are required. [...]
2011 - Published in : Nucl. Instrum. Methods Phys. Res., A 658 (2011) 11-16

In : 8th International Conference on Radiation Effects on Semiconductor Materials Detectors and Devices, Florence, Italy, 12 - 15 Oct 2010, pp.11-16
4.
RD50 Status Report 2008 - Radiation hard semiconductor devices for very high luminosity colliders / Balbuena, Juan Pablo (Barcelona, Inst. Microelectron.) ; Bassignana, Daniela (Barcelona, Inst. Microelectron.) ; Campabadal, Francesca (Barcelona, Inst. Microelectron.) ; Díez, Sergio (Barcelona, Inst. Microelectron.) ; Fleta, Celeste (Barcelona, Inst. Microelectron.) ; Lozano, Manuel (Barcelona, Inst. Microelectron.) ; Pellegrini, Giulio (Barcelona, Inst. Microelectron.) ; Rafí, Joan Marc (Barcelona, Inst. Microelectron.) ; Ullán, Miguel (Barcelona, Inst. Microelectron.) ; Creanza, Donato (Bari U. ; INFN, Bari) et al.
The objective of the CERN RD50 Collaboration is the development of radiation hard semiconductor detectors for very high luminosity colliders, particularly to face the requirements of a possible upgrade scenario of the LHC.This document reports the status of research and main results obtained after the sixth year of activity of the collaboration..
CERN-LHCC-2010-012 ; LHCC-SR-003.
- 2010. - 73 p.
Fulltext
5.
Recent progress in CERN RD39 : Radiation hard cryogenic silicon detectors for applications in LHC experiments and their future upgrades / Tuominen, E (Helsinki Inst. of Phys.) ; Anbinderis, P (Vilnius U.) ; Anbinderis, T (Vilnius U.) ; Bates, R (Glasgow U.) ; de Boer, W (Karlsruhe U., EKP) ; Borchi, E (Florence U.) ; Bruzzi, M (Florence U.) ; Buttar, C (Glasgow U.) ; Chen, W (Brookhaven) ; Cindro, V (Stefan Inst., Ljubljana) et al.
CERN RD39 Collaboration develops radiation-hard cryogenic silicon detectors. Recently, we have demonstrated improved radiation hardness in novel Current Injected Detectors (CID). [...]
2009 - Published in : IEEE Trans. Nucl. Sci. 56 (2009) 2119-2123 IEEE Published version, local copy: PDF;
6.
Development of cryogenic tracking detectors for very high luminosity experiments / Härkönen, J (Helsinki Inst. of Phys.) ; Anbinderis, P (Vilnius U.) ; Anbinderis, T (Vilnius U.) ; Bates, R (Glasgow U.) ; de Boer, W (Karlsruhe U., EKP) ; Borchi, E (Florence U., Dip. di Energetica) ; Bruzzi, M (Florence U., Dip. di Energetica) ; Buttar, C (Glasgow U.) ; Chen, W (Brookhaven) ; Cindro, V (Stefan Inst., Ljubljana) et al.
Experimental results and simulations of Charge Collection Efficiency (CCE) of Current Injected Detectors (CIDs) are focused. CID is a concept where the current is limited by the space charge. [...]
2009 - Published in : Nucl. Instrum. Methods Phys. Res., A 607 (2009) 41-44
7.
Electrical properties of the sensitive side in Si edgeless detectors / Verbitskaya, E (Ioffe Phys. Tech. Inst.) ; Ruggiero, G (CERN) ; Eremin, I (Ioffe Phys. Tech. Inst.) ; Ilyashenko, I (Ioffe Phys. Tech. Inst.) ; Cavallini, A (Bologna U.) ; Castaldini, A (Bologna U.) ; Pellegrini, G (Barcelona, Inst. Microelectron.) ; Lozano, M (Barcelona, Inst. Microelectron.) ; Golubkov, S (RIMST, Zelenograd) ; Egorov, N (RIMST, Zelenograd) et al.
Silicon edgeless detectors represent a novel type of detector that are being developed for close-to-beam applications in high-energy physics and for large-scale tiled 1D and 2D arrays used in radiation imaging. In this work, the electric field and potential distributions on the device cut side, key factors in detector performance, have been investigated using two methods—the Conductive Microprobe Technique and the Scanning Transient Current Technique. [...]
2009 - Published in : Nucl. Instrum. Methods Phys. Res., A 604 (2009) 246-249
8.
RD39 Status Report 2009 / Anbinderis, P ; Anbinderis, T ; Bates, R ; Bol, H ; Buttar, C ; Chen, W ; Cindro, V ; de Boer, W ; Eremin, V ; Gaubas, E et al.
RD39 Status Report 2009. [...]
CERN-LHCC-2010-004 ; LHCC-SR-002.
- 2010.
Fulltext
9.
Development of radiation hard semiconductor : devices for very high luminosity colliders / Mauro De Palma, D (INFN, Bari) ; Radicci, V (INFN, Bari) ; Lozano, M (Barcelona, Autonoma U.) ; Campabadal, F (Barcelona, Autonoma U.) ; Ullán, M (Barcelona, Autonoma U.) ; Martínez, C (Barcelona, Autonoma U.) ; Fleta, C (Barcelona, Autonoma U.) ; Key, M (Barcelona, Autonoma U.) ; Raffí, J M (Barcelona, Autonoma U.) ; Kordas, G (Democritos Nucl. Res. Ctr.) et al.
CERN-LHCC-2002-003 ; LHCC-P-6.
- 2002. - 36 p.
Full text - CERN library copies
10.
RD39 Status Report 2008 / RD39 Collaboration
RD39 Status Report 2008
CERN-LHCC-2008-019 ; LHCC-SR-001.
- 2008.
Fulltext

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