Progress in the Design and Study of a Superferric Dipole Magnet for the GSI Fast-Pulsed Synchrotron SIS100

Authors :: M.A. Voevodin
V.G. Aksenov
Hamlet Khodzhibagiyan
G. Kuznetsov
G. Hess
I. Karpunina
C. Muehle
Alexander Kovalenko
G. Moritz
E. Fischer
N.N. Agapov
Source :: IEEE Transactions on Appiled Superconductivity. 14:321-324
Publication Year :: 2004
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2004.
Abstract: New experimental results from the investigation of a superferric window frame type dipole magnet with the operating parameters: B=2T, dB/dt=4T/s and pulse repetition rate f=1Hz are presented. The magnet SC coil is made from a hollow multifilamentary NbTi cable, cooled with two-phase helium flow. Special attention is devoted to minimization of AC power losses in the magnet to the specified value of 13W/m. The value of 9W/m has been obtained for a model magnet with the yoke at T=50K. Different possibilities were investigated to reduce the losses in the case of a cold iron yoke (T=4.5K). Other problems, connected with the magnetic field quality, mechanical and cryogenic stability of the magnet under SIS100 operating conditions are also discussed.

Subjects :: Materials science
Nuclear engineering
Superconducting magnet
Cryogenics
Condensed Matter Physics
Synchrotron
Electronic, Optical and Magnetic Materials
Magnetic field
law.invention
Nuclear magnetic resonance
law
Electromagnetic coil
Dipole magnet
Magnet
Electrical and Electronic Engineering
Yoke

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