The hybrid superconducting resistive magnet (M8) in Grenoble has reached an important milestone in 2024 : 42T was reached in a cold bore of 34mm. The first experiments are planned in 2025.
The experimental setup which had allowed to reach this important milestone will be described, as well as the tests which were done in the commissioning phase. This hybrid magnet is planned to be integrated...
The High Magnetic Field Laboratory of Chinese Academy of Sciences (CHMFL) aims to develop steady high magnetic field magnets and promote fundamental sciences on the magnets. To develop hybrid magnets is one of its main goals. A hybrid magnet is usually composed of a superconducting magnet and a resistive magnet. The first hybrid magnet in CHMFL was established in 2017, with a resistive magnet...
The National High Magnetic Field Laboratory (MagLab) operates high field user facilities in Tallahassee (dc, NMR, EMR, ICR) and Gainesville (MRI, HiB/T), Florida, and Los Alamos, New Mexico (pulsed). These facilities serve approximately 2,000 scientists every year. The recent arrival of ultra-high field magnets based on the high temperature superconductors (HTS) is expected to impact most of...
The Wuhan National High Magnetic Field Center at Huazhong University of Science and Technology China is one of the premier facilities worldwide for conducting experiments at pulsed high magnetic fields. The Center has been operational for 13 years. Currently, a 28 MJ capacitor bank consisting of 22 modules of 1.2 MJ each and 2 modules of 800 kJ each as well as a 100 MJ/100 MVA...
Ultrahigh magnetic fields of 100 to 1000 T (multi-megagauss fields) can be produced destructively [1-4]. In this almost unexplored field range, more interesting magnetic field-induced phenomena are expected to be discovered, in addition to as previously reported the discovery of the novel high magnetic field phase of solid oxygen [5] and the dissociation of molecular orbitals in vanadium...
