Various systems of the hybrid magnets and the water-cooled magnets installed in the High Field Laboratory for Superconducting Materials are controlled and monitored by a computer system of TOSBAC 7/70B. In order to protect the systems and to secure experimenters, a hardwired protective interlock system is adopted. Three operating modes (HM-mode, SM-mode and WM-mode) are available. Users can sweep the current of magnets by themselves in the CPU mode
The construction of the full-superconducting tokamak JT-60 Super Advanced (JT-60SA) is in progress u...
The motor driven vibrating sample magnetometer (MVSM) was constructed in order to measure the magnet...
A series connected hybrid magnet for neutron scattering experiments has been installed and tested re...
Outline of Tohoku Hybrid Magnet system is briefly described. High Field Laboratory was established i...
Design, construction and performance of three superconducting magnets for the hybrid magnets install...
This paper reviews cryogenic systems in High Field Laboratory for Superconducting Materials, where t...
Design, fabrication and operating results of water-cooled magnets at High Field Laboratory for Super...
Water-cooled magnets for Tohoku Hybrid Magnets, HM-3, HM-2 and HM-1, consist of a single Bitter coil...
This paper serves as a preface to the present special issue of Sci. Rep. RITU, describing the brief ...
High-power water-cooled magnets have been installed in our laboratory to produce high magnetic field...
New high field superconducting magnets have been studied as the research and development for the nex...
A hybrid magnet is a combined system of an outer superconducting magnet and an inner high-power wate...
Electromagnetic induction and Hall effect were attempted to measure the field intensity up to the hi...
A 16.5 T superconducting magnet employing a surface diffusion processed Nb_3Sn tape was installed in...
Magneto-absorption spectra were obtained in the fields up to 23 T by means of a hybrid magnet at Toh...
The construction of the full-superconducting tokamak JT-60 Super Advanced (JT-60SA) is in progress u...
The motor driven vibrating sample magnetometer (MVSM) was constructed in order to measure the magnet...
A series connected hybrid magnet for neutron scattering experiments has been installed and tested re...
Outline of Tohoku Hybrid Magnet system is briefly described. High Field Laboratory was established i...
Design, construction and performance of three superconducting magnets for the hybrid magnets install...
This paper reviews cryogenic systems in High Field Laboratory for Superconducting Materials, where t...
Design, fabrication and operating results of water-cooled magnets at High Field Laboratory for Super...
Water-cooled magnets for Tohoku Hybrid Magnets, HM-3, HM-2 and HM-1, consist of a single Bitter coil...
This paper serves as a preface to the present special issue of Sci. Rep. RITU, describing the brief ...
High-power water-cooled magnets have been installed in our laboratory to produce high magnetic field...
New high field superconducting magnets have been studied as the research and development for the nex...
A hybrid magnet is a combined system of an outer superconducting magnet and an inner high-power wate...
Electromagnetic induction and Hall effect were attempted to measure the field intensity up to the hi...
A 16.5 T superconducting magnet employing a surface diffusion processed Nb_3Sn tape was installed in...
Magneto-absorption spectra were obtained in the fields up to 23 T by means of a hybrid magnet at Toh...
The construction of the full-superconducting tokamak JT-60 Super Advanced (JT-60SA) is in progress u...
The motor driven vibrating sample magnetometer (MVSM) was constructed in order to measure the magnet...
A series connected hybrid magnet for neutron scattering experiments has been installed and tested re...