| Paper | Title | Page |
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| THPBA24 | A Dipole Magnet for the FRIB High Radiation Environment Nuclear Fragment Separator | 1280 |
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Funding: U.S. DOE grants DE-SC-0006273 and DE-AC02-98CH10886 Magnets in the fragment separator region of the Facility for Rare Isotope Beams (FRIB) would be subjected to extremely high radiation and heat loads. Critical elements of FRIB are the dipole magnets which select the desired isotopes. Since conventional NiTi and Nb3Sn superconductors must operate at ~4.5 K, the removal of the high heat load generated in these magnets with these superconductors would be difficult. The coils for these magnets must accommodate the large curvature from the 30° bend that the magnets subtend. High temperature superconductors (HTS) have been shown to be radiation resistant and can operate in the 40 K temperature range where heat removal is an order of magnitude more efficient than at 4.5 K. This paper will describe the magnetic and preliminary engineering design of these magnets. |
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| THPBA25 | Radiation Tolerant Multipole Correction Coils for FRIB Quadrupoles | 1283 |
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| Multipole correction insert coils with significant field strength are required inside the large aperture superconducting quadrupole magnets in the fragment separator section of the Facility for Rare Isotope Beams (FRIB). Correction coils made with copper do not create the required field and conventional low temperature superconductors are not practical in the fragment separator magnets which will operate at 40 K. The correction coils should be made of HTS as the main quadrupole coils are. There is a significant advantage to using HTS in these coils as it can withstand the high radiation and heat load that will be present. This paper will describe an innovative design suitable for coils with the complex end geometry of cylindrical coils. We will look at the forces on the corrector coils from the main quadrupole fields and anticipate possible coil distortions. | ||