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CERN Document Server 291 record trovati  1 - 10successivofine  salta al record: La ricerca ha impiegato 0.61 secondi. 
1.
Intensified Tpx3Cam, a fast data-driven optical camera with nanosecond timing resolution for single photon detection in quantum applications / Nomerotski, Andrei (Brookhaven) ; Chekhlov, Matthew (Brookhaven) ; Dolzhenko, Denis (Brookhaven) ; Glazenborg, Rene (Photonis, Brive) ; Farella, Brianna (Brookhaven) ; Keach, Michael (Brookhaven) ; Mahon, Ryan (Brookhaven) ; Orlov, Dmitry (Photonis, Brive) ; Svihra, Peter (Prague, Tech. U. ; CERN)
We describe a fast data-driven optical camera, Tpx3Cam, with nanosecond scale timing resolution and 80 Mpixel/sec throughput. After the addition of intensifier, the camera is single photon sensitive with quantum efficiency determined primarily by the intensifier photocathode. [...]
arXiv:2210.13713.- 2023-01-17 - 13 p. - Published in : JINST 18 (2023) C01023 Fulltext: PDF;
In : 23rd International Workshop for Radiation Imaging Detectors, Riva Del Garda, It, 26 - 30 Jun 2022, pp.C01023
2.
Gravitational probes of ultra-light axions / Grin, Daniel (Haverford Coll.) ; Amin, Mustafa A. (Rice U.) ; Gluscevic, Vera (Florida U. ; Princeton U.) ; Grin, Daniel (Haverford Coll.) ; Hlǒzek, Renée (Toronto U., Astron. Dept.) ; Marsh, David J.E. (Inst. Astrophys. Gottingen) ; Poulin, Vivian (U. Montpellier 2, LUPM ; Johns Hopkins U.) ; Prescod-Weinstein, Chanda (New Hampshire U.) ; Smith, Tristan L. (Swarthmore Coll.) ; Ahmed, Zeeshan (SLAC) et al.
The axion is a hypothetical, well-motivated dark-matter particle whose existence would explain the lack of charge-parity violation in the strong interaction. [...]
arXiv:1904.09003.
- 17 p.
Fulltext
3.
Quantifying high-dimensional spatial entanglement with a single-photon-sensitive time-stamping camera / Courme, Baptiste (Paris, INSP ; Paris, Lab. Kastler Brossel) ; Vernière, Chloé (Paris, INSP) ; Svihra, Peter (Prague, Tech. U. ; CERN) ; Gigan, Sylvain (Paris, Lab. Kastler Brossel) ; Nomerotski, Andrei (Brookhaven Natl. Lab.) ; Defienne, Hugo (Paris, INSP)
High-dimensional entanglement is a promising resource for quantum technologies. Being able to certify it for any quantum state is essential. [...]
arXiv:2302.03756.- 2023-06-21 - 4 p. - Published in : Opt. Lett. 48 (2023) 3439-3442 Fulltext: PDF;
4.
Novel imaging technique for thermal neutrons using a fast optical camera / Gao, Tianqi (Manchester U.) ; D'Amen, Gabriele (Brookhaven) ; Burdin, Sergey (Liverpool U.) ; Alsulimane, Mohammad (Liverpool U.) ; Campbell, Paul (Manchester U.) ; Da Via, Cinzia (Manchester U. ; YITP, Stony Brook) ; Nomerotski, Andrei (Brookhaven) ; Roberts, Adam (Liverpool U.) ; Svihra, Peter (Manchester U. ; CERN) ; Mavrokoridis, Konstantinos (Liverpool U.) et al.
A novel imaging technique for thermal neutrons using a fast optical camera is presented. Thermal neutrons are reacted with 6Lithium to produce a pair of 2.73 MeV tritium and 2.05 MeV alpha particles, which in turn interact in a thin layer of LYSO crystal scintillator to produce a localized flash of light. [...]
2023 - 3 p.
Fulltext: PDF;
In : 15th Pisa Meeting on Advanced Detectors, La Biodola - Isola D'elba, It, 22 - 28 May 2022, pp.167604
5.
Microchannel Cooling for the LHCb VELO Upgrade I / Collins, Paula (CERN) ; De Aguiar Francisco, Oscar Augusto (University of Manchester (GB)) ; Byczynski, Wiktor (Tadeusz Kosciuszko Cracow University of technology (PL)) ; Akiba, Kazu (Nikhef National institute for subatomic physics (NL)) ; Bertella, Claudia (University of Manchester (GB)) ; Bitadze, Alexander (University of Manchester (GB)) ; Buytaert, Jan (CERN) ; De Capua, Stefano (University of Manchester (GB)) ; Callegari, Riccardo (CERN) ; Catinaccio, Andrea (CERN) et al.
The LHCb VELO Upgrade I, currently being installed for the 2022 start of LHC Run 3, uses silicon microchannel coolers with internally circulating bi-phase \cotwo for thermal control of hybrid pixel modules operating in vacuum. This is the largest scale application of this technology to date. [...]
arXiv:2112.12763; CERN-LHCb-PUB-2021-010; LHCb-PUB-2021-010; CERN-LHCb-PUB-2021-010.- Geneva : CERN, 2022-09-11 - 18 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 1039 (2022) 166874 Fulltext: 2112.12763 - PDF; Publication - PDF; Publication: PDF;
6.
New Technologies for Discovery / Ahmed, Z. (SLAC) ; Apresyan, A. (Fermilab) ; Artuso, M. (Syracuse U. (main)) ; Barry, P. (Argonne) ; Bielejec, E. (Sandia) ; Blaszczyk, F. (Boston U.) ; Bose, T. (Wisconsin U., Madison) ; Braga, D. (Fermilab) ; Charlebois, S.A. (Sherbrooke U.) ; Chatterjee, A. (Texas U., Arlington (main)) et al.
For the field of high energy physics to continue to have a bright future, priority within the field must be given to investments in the development of both evolutionary and transformational detector development that is coordinated across the national laboratories and with the university community, international partners and other disciplines. [...]
arXiv:1908.00194 ; FERMILAB-CONF-19-487-DI-ND-PPD-SCD.
- 2019 - 101.
Fermilab Library Server (fulltext available) - Fulltext - Fulltext
7.
Micro channel evaporative CO2 cooling for the upgrade of the LHCb vertex detector / Buytaert, J (CERN) ; Collins, P (CERN) ; Dumps, R (CERN) ; Greening, E (Oxford U.) ; John, M (Oxford U.) ; Leflat, A (SINP, Moscow) ; Li, Y (Qinghua U.) ; Mapelli, A (CERN) ; Nomerotski, A (CERN ; Oxford U.) ; Romagnoli, G (Genoa U.) et al.
Local thermal management of detector electronics through ultra-thin micro-structured silicon cooling plates is a very promising technique for pixel detectors in high energy physics experiments, especially at the LHC where the heavily irradiated sensors must be operated at temperatures below − 20 1 C. It combines a very high thermal ef fi ciency with a very low addition of mass and space, and suppresses all problems of CTE mismatch between the heat source and the heat sink [...]
2013 - 5 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 731 (2013) 189-193
In : 6th International Workshop on Semiconductor Pixel Detectors for Particles and Imaging, Inawashiro, Japan, 3 - 7 Sep 2012, pp.189-193
8.
First radiation hardness results of the TeraPixel Active Calorimeter (TPAC) sensor / Price, T (Birmingham U.) ; Coath, R (Rutherford) ; Crooks, J (Rutherford) ; Cussans, D (Bristol U.) ; Dauncey, P (Imperial Coll., London) ; Gao, R (Oxford U.) ; Goldstein, J (Bristol U.) ; Head, R (Bristol U.) ; Nash, S (Bristol U.) ; Nomerotski, A (Oxford U.) et al.
The TeraPixel Active Calorimeter (TPAC) sensor is a novel Monolithic Active Pixel Sensors (MAPS) device developed for use as the active layers of a large area, digital electromagnetic calorimeter (DECAL) at a future e(+)e(-') collider. Further applications, which include the tracking and vertex systems for future lepton colliders and LHC upgrades have been proposed and it is therefore essential to characterise the behaviour of the sensor for these applications. [...]
2013 - Published in : JINST 8 (2013) P01007 IOP Open Access article: PDF;
9.
Studies of beauty baryon decays to D0ph and Λ+ch final states / LHCb collaboration
Decays of beauty baryons to the D0ph and Λ+ch final states (where h indicates a pion or a kaon) are studied using a data sample of pp collisions, corresponding to an integrated luminosity of 1.0 fb1, collected by the LHCb detector. The Cabibbo-suppressed decays Λ0bD0pK and Λ0bΛ+cK are observed and their branching fractions are measured with respect to the decays Λ0bD0pπ and Λ0bΛ+cπ. [...]
arXiv:1311.4823; CERN-PH-EP-2013-207; LHCB-PAPER-2013-056; CERN-PH-EP-2013-207; LHCB-PAPER-2013-056.- Geneva : CERN, 2014-02-13 - 15 p. - Published in : Phys. Rev. D 89 (2014) 032001 APS Open Access article: PDF; Fulltext: PDF; Related data file(s): ZIP; Related supplementary data file(s): ZIP; External link: Preprint
10.
Study of forward Z+jet production in pp collisions at s = 7 TeV / LHCb collaboration
A measurement of the Z(μ+μ)+jet production cross-section in pp collisions at a centre-of-mass energy s=7 TeV is presented. The analysis is based on an integrated luminosity of 1.0fb1 recorded by the LHCb experiment. [...]
arXiv:1310.8197; LHCB-PAPER-2013-058; CERN-PH-EP-2013-198; LHCB-PAPER-2013-058; CERN-PH-EP-2013-198.- Geneva : CERN, 2014-01 - 22 p. - Published in : JHEP 01 (2014) 033 Article from SCOAP3: PDF; Fulltext: PDF; Related data file(s): ZIP; Springer Open Access article: PDF; Supplementary Related data file(s): ZIP; External link: Rivet analyses reference

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Vedi anche: autori con nomi simili
39 Nomerotski, A.
1 Nomerotski, Andre
23 Nomerotski, Andrei
5 Nomerotski, Andrey
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