Accelerator Magnet Development Based on COMB Technology with STAR Wires
V. V. Kashikhin (1), S. Cohan (1), V. Lombardo (1), D. Turrioni (1),, N. Mai (2), A. K. Chavda (2), U. Sambangi (2), S. Korupolu (2), J. Peram (2),, A. Anil (2), C. Goel (2), J. Sai Sandra (2), V. Yerraguravagari (2), R., Schmidt (2), V. Selvamanickam (2), G. Majkic (2)
TL;DR
This paper discusses the development and testing of COMB magnet technology using STAR wires, including the fabrication of a two-layer dipole magnet and analysis of critical current degradation during winding.
Contribution
It introduces a new COMB magnet fabrication process with STAR wires and evaluates its performance through experimental testing.
Findings
Successful fabrication of a two-layer dipole magnet with STAR wires
Identification of critical current degradation during winding process
Magnet tested in liquid nitrogen to assess performance
Abstract
This paper reports progress in the development of COMB magnet technology with STAR wires. A two-layer dipole magnet with 60 mm clear bore has been recently fabricated and tested in liquid nitrogen. The purpose of the test was to determine what kind of critical current degradation occurs in the process of winding the STAR wire into the COMB structure.
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Taxonomy
TopicsSuperconducting Materials and Applications · Particle accelerators and beam dynamics · Particle Accelerators and Free-Electron Lasers