R. Duperrier
DSM
40 Papers
360 Citations
R. Duperrier is an academic researcher from DSM. The author has contributed to research in topics: Beam (structure) & International Fusion Materials Irradiation Facility. The author has an hindex of 12, co-authored 40 publications. Previous affiliations of R. Duperrier include Commissariat à l'énergie atomique et aux énergies alternatives.
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Papers
Conceptual design of the SPL II : A high-power superconducting $H^-$ linac at CERN
M. Baylac,M. Magistris,M. Paoluzzi,Masaki Hori,D. Küchler,E. Froidefond,Klaus Hanke,C Rossi,T Meinschad,A López Hernández,R. Garoby,Palladino,Alessandra Lombardi,S. Chel,R. Duperrier,Maurizio Vretenar,J B Lallement,J M Deconto,R. Scrivens,J Inigo-Golfin,T. Steiner,T. Kroyer,J P Royer,Antonio Millich,E Benedico-Mora,M Silari,E. Sargsyan,E Noah-Messomo,Carlo Pagani,Didier Uriot,M Sanmartí,Paolo Pierini,Friedhelm Caspers,Mats Lindroos,C. E. Hill,Joachim Tückmantel,M. Pasini,K Kahle +37 more
- 01 Jan 2000
TL;DR: The Superconducting Proton Linac (SPLion Linac) at CERN as mentioned in this paper was designed to accelerate the proton beam up to 3.5 GeV and achieved state-of-the-art performance in terms of brightness and intensity.
CEA Saclay Codes Review for High Intensities Linacs Computations
R. Duperrier,Nicolas Pichoff,Didier Uriot +2 more
- 21 Apr 2002
TL;DR: This paper consists in a review of several of these codes especially the linac generator able to design linac structures, the TOUTATIS code computing transport in RFQs in 3D grids, the TraceWin code allowing to compute end to end simulation of a whole linac.
Transport of intense ion beams and space charge compensation issues in low energy beam lines (invited).
TL;DR: In this paper, a particle-in-cell code dedicated to the modeling of the transport of charge particles under a space charge compensation regime is described, and beam dynamics simulations results obtained with SOLMAXP are presented in the case of international fusion materials irradiation facility injector.
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ESS Conceptual Design Report
Steve Peggs,Ken Haste Andersen,Dimitri N. Argyriou,K. Batkov,C. B'ohme,S. Bousson,Ibon Bustinduy,Colin Carlile,P. Carlsson,Luigi Celona,Michele Comunian,Håkan Danared,Christine Darve,Pascale P. Deen,M. Dell'Anno Boulton,R. De Prisco,G. Devanz,R. Duperrier,D. Ene,S. Eshraqi,Santo Gammino,M. G'ohran,Suzanne Gysin,H. Hahn,Richard Hall-Wilton,H. Hassan,K. Hedin,Wolfgang Hees,Paul F. Henry,A. Hiess,Andrew Jackson,P. Jacobsson,Anders J Johansson,C. Kharoua,Oliver Kirstein,Emanuele Laface,G. Lanfranco,R. Linander,Mats Lindroos,S. Molloy,J. Malovrh,David McGinnis,Ferenc Mezei,Peter M. Nilsson,E. Noah,Esko Oksanen,C. Oyon,S. Pape-Moller,Thomas Parker,J. Perssony,S. Petersson ̊Arsk ̈old,F. Plewinski,B. Pottin,A. Ponton,P. Radahl,Karin Rathsman,Miha Reščič,Thomas H. Rod,Roger Ruber,P. Sabbagh,Rebecca Seviour,S. Skelboe,A. Steuwer,J. Stovall,Markus Strobl,A. Takibayev,Lali Tchelidze,A. Tibbelin,G. Trahern,H. Wacklin,L. Zanini,R. Zeng +71 more
- 06 Feb 2012
TL;DR: The high intensity spallation neutron source ESS is well set to start construction in 2013 and to deliver the first neutrons in 2019 as mentioned in this paper, but it has been 20 years in gestation but there has been a determination amongst the user community and those working in national and international neutron laboratories in Europe.
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The IFMIF-EVEDA challenges in beam dynamics and their treatment
P. A. P. Nghiem,Nicolas Chauvin,Michele Comunian,O. Delferriere,R. Duperrier,A. Mosnier,C. Oliver,Didier Uriot +7 more
TL;DR: In this article, the authors highlight the challenges in beam dynamics design and optimisation, such as harmful losses even for those less than 10−6 of the beam, nonlinear dynamics induced by very strong space charge forces, difficulties for equipment and diagnostic implementations in the high compact structure, need of specific tuning strategies in this context, and the ways in which they are addressed are detailed.
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