R
R. Wahrer
Publications - 4
Citations - 60
R. Wahrer is an academic researcher. The author has contributed to research in topics: Magnet & Superconducting magnet. The author has an hindex of 4, co-authored 4 publications receiving 58 citations.
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Journal ArticleDOI
The Design Parameters for the MICE Tracker Solenoid
Michael A. Green,Cheng-Yen Chen,T. Juang,W. Lau,Clyde Taylor,Steve Virostek,R. Wahrer,S.T. Wang,Holger Witte,Shiming Yang +9 more
TL;DR: The first superconducting magnets to be installed in the union ionization cooling experiment (MICE) will be the tracker solenoids as mentioned in this paper, which is a five-coil magnet with a 400 mm diameter warm bore that is used to provide a 4 T magnetic field for the experiment tracker module.
Journal ArticleDOI
ALS Superbend magnet system
J. Zbanik,S.T. Wang,J Chen,G.J. DeVries,R. DeMarco,M. Fahmie,A. Geyer,Martin A. Green,J. Harkins,T. Henderson,J. Hinkson,E. Hoyer,J. Krupnick,Steve Marks,F. Ottens,J.A. Paterson,P. Pipersky,Gregory Portmann,D. Robin,Ross Schlueter,Christoph Steier,C.E. Taylor,R. Wahrer +22 more
TL;DR: In this paper, the authors present the final magnet system design for the Advanced Light Source (ALS) with three superconducting dipoles (Superbends), which incorporates conduction-cooled Nb-Ti windings and HTS current leads, epoxyglass suspension straps, and a Gifford-McMahon cryocooler to supply steady state refrigeration.
Journal ArticleDOI
Preliminary Test Results for the MICE Spectrometer Superconducting Solenoids
Steve Virostek,Martin A. Green,Derun Li,Michael S. Zisman,S.T. Wang,R. Wahrer,Charles Taylor,X. Lu,JiYu Chen,Mimi Wang,Tiki Juang +10 more
TL;DR: In this paper, the MICE spectrometer solenoid is built with five superconducting coils, and two coils are used to tune the beam going from or to the spectrometers from the rest of the cooling channel.
ALS superbend magnet system
J. Zbasnik,S.T. Wang,J. Chen,G.J. DeVries,R. DeMarco,M. Fahmie,A. Geyer,Green,J. Harkins,T. Henderson,J. Hinkson,E. Hoyer,J. Krupnick,Steve Marks,F. Ottens,J.A. Paterson,P. Pipersky,Gregory Portmann,D. Robin,R. Schlueter,Christoph Steier,C.E. Taylor,R. Wahrer +22 more
TL;DR: In this paper, the authors present the final magnet system design for the Advanced Light Source (ALS) with three superconducting dipoles (Superbends), which incorporates conduction-cooled Nb-Ti windings and HTS current leads, epoxyglass suspension straps, and a Gifford-McMahon cryocooler to supply steady state refrigeration.