S. Kozub
36 Papers
153 Citations
S. Kozub is an academic researcher. The author has contributed to research in topics: Superconducting magnet & Magnet. The author has an hindex of 7, co-authored 35 publications.
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Papers
Design of a 6 T, 1T/s fast-ramping Synchrotron magnet for GSI's planned SIS 300 accelerator
J. Kaugerts,G. Moritz,C. Muehle,A. I. Ageev,I. Bogdanov,S. Kozub,P. Shcherbakov,V. Sytnik,L. Tkachenko,Viktor Zubko,Davide Tommasini,M.N. Wilson,W.V. Hassenzahl +12 more
TL;DR: In this article, a two-layer cos /spl theta/ magnet design, using a cored Rutherford cable, has been chosen for a fast-ramping heavy ion synchrotron with a rigidity of 300 T-m.
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Magnetic and Thermal Characteristics of a Model Dipole Magnet for the SIS 300
S. Kozub,L. Tkachenko,Viktor Zubko,E. Floch,J. Kaugerts,G. Moritz,Bernhard Auchmann,Stephan Russenschuck,Davide Tommasini +8 more
TL;DR: In this article, the authors presented the calculations of the magnetic and thermal characteristics of a 1 m model dipole with optimized 2D and 3D geometries, and the AC losses in the coil and iron yoke, as well as temperature margins were analyzed.
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Development of Quadrupole, Steering and Corrector Magnets for the SIS 300
TL;DR: In this paper, a fast cycling quadrupole is presented as the main unit for the SIS 300 ring, which will be assembled together with corrector magnets in the united cryostat.
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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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Design and test of a high temperature superconductor current lead
I. Bogdanov,S. Kozub,K.P. Myznikov,P. Slabodchikov,V.A. Sytchev,V. Sytnik,L.m. Vassiliev,V. V. Zubko,I.I. Akimov,N.S. Gryaznov,D.N. Rakov,A. K. Shikov +11 more
TL;DR: In this paper, a 600 A High Temperature Superconductor (HTS) current lead has been designed, fabricated and tested and the design of the current lead is optimized to reduce the heat leak and to operate safely during fault mode conditions.
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