T. Steiner
CERN
7 Papers
132 Citations
T. Steiner is an academic researcher from CERN. The author has contributed to research in topics: Engineering & Chemistry. The author has an hindex of 2, co-authored 4 publications.
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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.
H- Source Developments at CERN
C. E. Hill,D. Küchler,R. Scrivens,T. Steiner +3 more
- 06 Apr 2005
TL;DR: In this paper, the authors present the requirements for such a source together with the first results for a prototype microwave driven source, which is used in the LHC and ISOLDE programs.
4
Steady-State Irradiation of Characterized Instruments for Nuclear Thermal Rockets Using In-Pile Experiment Apparatus
TL;DR: In this article , an irradiation campaign has been designed to test a set of instruments provided by a collaborator in the aerospace industry, and details concerning instrument performance before and after irradiation are provided to allow for an analysis of the tested instruments.
1
H− source developments at CERN
TL;DR: In this paper, the authors present the results achieved so far with a prototype microwave-driven source operated with three different magnetic structures (multicusp, solenoidal, and a combination of both).
1
The SPL (II) at CERN; a Superconducting 3.5-GeV H- Linac
F. Gerigk,M. Magistris,M. Paoluzzi,Masaki Hori,D. Küchler,Paolo Pierini,E. Froidefond,Klaus Hanke,C Rossi,T Meinschad,Giulia Bellodi,R. Garoby,Palladino,M Sanmartí,J. M. De Conto,R. Duperrier,M. Baylac,S. Chel,J B Lallement,R. Scrivens,Jean Pierre Royer,J Inigo-Golfin,T. Steiner,T. Kroyer,Antonio Millich,E Benedico-Mora,A López-Hernandez,M Silari,E. Sargsyan,E Noah-Messomo,Carlo Pagani,Didier Uriot,Maurizio Vretenar,Alessandra Lombardi,Friedhelm Caspers,Mats Lindroos,C.E. Hill,Joachim Tückmantel,M. Pasini,K Kahle,Y Body +40 more
- 04 Oct 2006
TL;DR: In this paper, the authors presented the overall design approach, together with the technical progress since the first conceptual design in 2000, of a superconducting (SC) Hlinac at CERN, and showed that the beam energy is almost doubled (3.5GeV instead of 2.2 GeV) while the length is reduced by 40%.