Results 241 to 250 of about 935,964 (287)

Strain-induced two-dimensional topological crystalline insulator in bilayer SnTe. [PDF]

Nat Commun
Jing L, Amini M, Fumega AO, Silveira OJ, Lado JL, Liljeroth P, Kezilebieke S.   +6 more
europepmc   +1 more source

Design of a 50 TW/20 J chirped-Pulse Amplification Laser for High-Energy-Density Plasma Physics Experiments at the Nevada Terawatt Facility of the University of Nevada

, 2003
A. C. Erlandson, A. L. Astanovitskiy, S. Batie, B. S. Bauer, A Bayramian, J. A. Caird, T. E. Cowan, Christopher A. Ebbers, J. Fuchs, H. Faretto, Jack Glassman, Иванов, B. LeGalloudec, Nathalie LeGalloudec, Sam Letzring, Sheila Payne, Brent C. Stuart   +16 more
openalex   +1 more source

Future high energy physics experiments using RICH detectors: The next generation

, 1995
B. N. Ratcliff
openalex   +1 more source

COMPILATION OF CURRENT HIGH ENERGY PHYSICS EXPERIMENTS

, 2008
Kelly, R.L., Particle Data Group
openaire   +1 more source

COMPILATION OF CURRENT HIGH ENERGY PHYSICS EXPERIMENTS July 1976

, 1976
openaire   +2 more sources

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Grid applications for high energy physics experiments

The 6th IEEE/ACM International Workshop on Grid Computing, 2005., 2005
This paper discusses the use of e-science grid in providing computational resources for modern international high energy physics (HEP) experiments. We investigate the suitability of the current generation of grid software to provide the necessary resources to perform large-scale simulation of the experiment and analysis of data in the context of ...
A. Khan, T. Adye, C. A. J. Brew, F. Wilson, B. Bense, R. D. Cowles, D. A. Smith, ANDREOTTI, Daniele, C. Bozzi, LUPPI, Eleonora, VERONESI, Paolo, R. Barlow, M. P. Kelly, J. C. Werner, A. Forti, G. Grosdidier, E. Feltresi, A. Petzold, H. Lacker, J. E. Sundermann   +19 more
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Computing in high energy physics experiments

Interfaces in Computing, 1985
Abstract High energy physics experiments are studying more and more exotic processes at ever-increasing energies. Enormous quantities of data must be measured and processed. This challenge can only be met by the use of computers throughout the experiments. An overview is given of how different applications each require specific hardware and software.
J Dorenbosch, L.O Hertzberger
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EMC Planning for High-Energy Physics Experiments

IEEE Transactions on Electromagnetic Compatibility, 2016
During the last years, the large hadron collider (LHC), the most powerful particle accelerator in the world, has been running at CERN in Geneva, Switzerland. It includes four large high-energy experiments and the compact muon solenoid (CMS) is one of them. The electronic read-out for the CMS experiment is designed to process signals in the range of $\
Fernando Arteche, Claudio H. Rivetta, Javier Gomez-Aleixandre   +2 more
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Pre-therapeutic Physical Experiments with High Energy Protons

The British Journal of Radiology, 1961
Methods of beam control and dosimetry for radiological work with a 187 MeV proton beam have been described. The results of measurement of absorption and distribution of dose have been reviewed with reference to the possible application of accelerated light atomic nuclei to radiotherapy of tumours and to intracranial radiosurgery.
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