C. Muehle
13 Papers
78 Citations
C. Muehle is an academic researcher. The author has contributed to research in topics: Magnet & Synchrotron. The author has an hindex of 5, co-authored 13 publications.
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Papers
Towards fast-pulsed superconducting synchrotron magnets
G. Moritz,C. Muehle,M. Anerella,A.K. Ghosh,W B Sampson,P. Wanderer,E. Willen,N.N. Agapov,Hamlet Khodzhibagiyan,Alexander Kovalenko,W.V. Hassenzahl,M.N. Wilson +11 more
- 18 Jun 2001
TL;DR: In this article, the window-frame type Nuclotron dipole, which has been operated with 4 T/s at a maximum field of 2 Tesla, shall be developed to reduce heat losses and to improve the magnetic field quality.
Superconducting fast-cycling dipole magnets for the gsi future accelerator facility
Alexander Kovalenko,N.N. Agapov,S.A. Averichev,A. Doniagin,I.A. Eliseeva,I. Karpunina,Hamlet Khodzhibagiyan,V.N. Kuzichev,G. Kuznetsov,Alexander Nesterov,P.I. Nikitaev,A. Starikov,L. Zaitsev,Russia G. Moritz,C. Muehle,Egbert Fischer,G. Hess,J. Kaugerts,M. Kauschke +18 more
- 01 Jan 2002
TL;DR: In this article, the results of design and tests of 2T superconducting model dipoles, operating at 1Hz, are presented and some beam pipe design problems as well as radiation effects are also discussed.
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Magnets for the Heavy-Ion Cancer Therapy Accelerator Facility (HICAT) for the clinic in Heidelberg
TL;DR: The Heavy Ion Cancer Therapy Accelerator facility (HICAT) for the university hospital in Heidelberg is now under construction and will be completed in 2006 as mentioned in this paper, which consists of 2 ion sources, low-energy beam transfer lines, a linear accelerator, a medium energy beam transfer line, a synchrotron, high energy beam-transfer lines, and 3 treatment locations.
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Optimization of a Dipole With Partially Keystoned Cable for the SIS 300
I. Bogdanov,S. Kozub,P. Shcherbakov,L. Tkachenko,Viktor Zubko,C. Muehle,G. Moritz,Davide Tommasini +7 more
TL;DR: In this paper, the shape of the partially keystoned cable of the SIS 300 ring was optimized for the large Hadron Collider superconducting main dipole and two grades of iron yoke steel were analyzed in view of their resulting field quality.
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Status of the Design of a Full Length Superferric Dipole and Quadrupole Magnets for the FAIR SIS 100 Synchrotron
Egbert Fischer,Alexander Alfeev,A. Kalimov,Hamlet Khodzhibagiyan,Alexander Kovalenko,G. Kuznetsov,G. Moritz,C. Muehle,V. Seleznev +8 more
TL;DR: In this paper, the SIS100 accelerator was designed to accelerate high intensity U28+ and proton beams for 0.5 s, with a pulse repetition rate of 0.6 Hz.
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