Title :
The PHENIX detector magnet subsystem
Author :
Yamamoto, Robert M. ; Bowers, Joel M. ; Harvey, Arthur R. ; Holmes, Robert H. ; James, Glen F. ; Libkind, Marcus A. ; Martin, Richard W. ; Mullins, Larry E. ; Thomas, James H. ; Wong, Winston J. ; Aronson, Samuel H. ; Kahn, Stephen A. ; Kroon, Peter J. ;
Author_Institution :
Lawrence Livermore Nat. Lab., CA, USA
fDate :
7/1/1996 12:00:00 AM
Abstract :
The PHENIX [Photon Electron New Heavy Ion Experiment] Detector is one of two large detectors presently under construction for RHIC (Relativistic Heavy Ion Collider) located at Brookhaven National Laboratory. Its primary goal is to detect a new phase of matter; the quark-gluon plasma. In order to achieve this objective, the PHENIX Detector utilizes a complex magnet subsystem which is comprised of two large magnets identified as the Central Magnet and the Muon Magnet. Muon Identifier steel is also included as part of this package. The entire magnet subsystem stands over 10 meters tall and weighs in excess of 1900 tons. Magnet size alone provided many technical challenges throughout the design and fabrication of the project. In addition, interaction with foreign collaborators provided the authors with new areas to address and problems to solve. Russian collaborators would fabricate a large fraction of the steel required and Japanese collaborators would supply the first coil. This paper describes the overall design of the PHENIX magnet subsystem and discusses its present fabrication status
Keywords :
muon detection; particle detectors; superconducting magnets; Central Magnet; Muon Magnet; PHENIX detector magnet subsystem; Photon Electron New Heavy Ion Experiment; RHIC; Relativistic Heavy Ion Collider; complex magnet subsystem; fabrication status; quark-gluon plasma; Collaboration; Detectors; Electrons; Fabrication; Laboratories; Mesons; Phase detection; Photon collider; Plasma applications; Steel;
Journal_Title :
Magnetics, IEEE Transactions on
