Speaker
Description
Superconducting magnets are widely used in the FAIR facility in Darmstadt, Germany. For the main accelerator, the heavy-ion synchrotron SIS100, the iron dominated superconducting magnets are fast ramped, with up to 4 T/s for the dipole magnet. The ion-optical elements of Super-FRS are realized by large aperture superconducting magnets mostly.
The large aperture dipole magnet will be installed a cave for Compressed Baryonic Matter (CBM) experiments. These magnets have a coil wound with low temperature superconductor (LTS, namely Niobium-Titanium), are cooled down to 4 K.
For SIS100, installation and interconnection of the dipole magnets in the accelerator ring tunnel have been already started. Complex supply chain from the production to the assembled module testing of the quadrupole magnets with corrector magnets and beam instrumentations were reinforced. The first three Super-FRS multiplets at the pre-target area have been installed into the FAIR tunnel and connected to the local cryogenic system. For enabling FAIR's first scientific objective, so called Early Science, a comprehensive review workshop on Super-FRS's superconducting magnets was held. Production of the large aperture dipole magnet for CBM is ongoing at German industry.
From the production, acceptance tests of the magnets and magnet modules, to the installation and the commissioning strategy of these magnets will be presented.
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