TY - JOUR
AU - Chernikov, Alexander
AB - A Helmholtz coil-like superconducting magnet using a material with high-temperature superconductivity (HTSC) has been produced for the DN-12 diffractometer of the IBR-2 reactor in the Department of the Spectrometers Complex of FLNP. The magnet cryostat possesses a horizontal shaft for loading the high-pressure chamber that is introduced into the area of high magnetic field. The temperature of the high-pressure chamber can be varied using an electric heater in the range of (3.6 - 150) K and the chamber is cooled using a closed cycle cryocooler as part of the cryostat insert that is introduced into the shaft together with the high-pressure chamber. The temperature of the magnet windings ranges from 20 to 40 K and is maintained using a closed cycle cryocooler. The equipment bound in the system that controls the magnet, magnet current supply, temperature controllers, cryostat vacuum measurements, the pumping system control – vacuum maintenance and compressor control of both cryocoolers are discussed in the report. The logical scheme of this system operation is considered as well. The equipment of the superconducting magnet environment provides such magnet parameters as magnetic induction, temperature of HTS coils and current leads in the cryostat. The core of the system is the current source and two cryocoolers. The sequence of switching on all units of the environment is implemented in such a way as to prevent the magnet equipment from operating outside the safe temperature range and to prevent its inadvertent transition to the regular state, in this case, emergency current removal from the HTS coil is provided.
TI - Control of the superconducting magnet positioned on the DN-12 diffractometer of the IBR-2 reactor
JO - Journal of Physics: Conference Series
DO - 10.1088/1742-6596/2984/1/012004
DA - 2025-04-01
UR - https://www.deepdyve.com/lp/iop-publishing/control-of-the-superconducting-magnet-positioned-on-the-dn-12-PGcF3dQLUa
VL - 2984
IS - 1
DP - DeepDyve
ER -