Operation of the Helium Cryogenic System for the Hybrid Superconducting Outsert at CHMFL

“…The Bitter disks of the inner three coils are made from the same CuAg sheets with a conductivity of 70% IACS and are punched with one die, while the outer three coils are made of hard copper with a conductivity of 98% IACS [75]. In September 2016, the hybrid magnet was completed and began to commission [76], the superconducting outsert was reached 10 T, and on 13 November 2016, a combined field of 40 T was attained. Since then, the hybrid magnet system has served users of the CHMFL at the full design field in both the superconducting outsert (10 T) and the resistive insert (30 T).…”

Progress of ultra-high-field superconducting magnets in China

“…The Bitter disks of the inner three coils are made from the same CuAg sheets with a conductivity of 70% IACS and are punched with one die, while the outer three coils are made of hard copper with a conductivity of 98% IACS [75]. In September 2016, the hybrid magnet was completed and began to commission [76], the superconducting outsert was reached 10 T, and on 13 November 2016, a combined field of 40 T was attained. Since then, the hybrid magnet system has served users of the CHMFL at the full design field in both the superconducting outsert (10 T) and the resistive insert (30 T).…”

Progress of ultra-high-field superconducting magnets in China

The thermal-hydraulic response of the superconducting outsert during the trip of the resistive magnet in the hybrid magnet system of the CHMFL

Progress in the Construction of the 43 T Hybrid Magnet at LNCMI-Grenoble