Magnet Development Group
In this group, an NMR magnet generating beyond 23.5 tesla is under development using oxide superconductors. And user-oriented superconducting magnets have been developed, such as a workbench magnet. Ceramics regenerator materials and magnetic cooling technology for hydrogen and space applications are being studied. Resistive magnet is also being studied for the hybrid magnet.
Specialized Research Field
Workbench superconducting magnet
User-oriented superconducting magntes have been developed. They have a function which conventional superconducting magnets cannot provede.
A workbench magnet was developed to improve user accessibility. A sample space of conventional magnets is located in a bore tube as shown in the figure. We moved the sample space on the flat surface in the workbench magnet. The magnet can generate 3.4 tesla at the surface. As it is cooled with a refrigerator, the direction of magnetic fields can be rotated.
A workbench magnet was developed to improve user accessibility. A sample space of conventional magnets is located in a bore tube as shown in the figure. We moved the sample space on the flat surface in the workbench magnet. The magnet can generate 3.4 tesla at the surface. As it is cooled with a refrigerator, the direction of magnetic fields can be rotated.
Right: Developed workbench superconducting magnet
