MOPP042
FRIB, East Lansing, Michigan, USA
For the FRIB driver linac, two different types of fundamental power couplers will be used to provide cw rf power to four cavity types. A cold window design is being used to power the two 80.5 MHz QWR cavity types for β=0.041 and β=0.085. A warm window design is being used to power the 322 MHz HWR cavity types for β = 0.29 and β = 0.53. Topics discussed include coupler preparation & assembly methods, acceptance criteria, diagnostics and RF conditioning.
FRIB, East Lansing, Michigan, USA
FRIB is a $730M heavy ion accelerator project and a very large scale machine for many nuclear physics users. The civil construction started on March 17th 2014. The SRF system design and development have completed. The machine is to be in early completion end of 2019. FRIB accelerates ion species up to 238U with energies of no less than 200MeV/u and provides a beam power up to 400kW. Four SRF cavity families are used from β=0.041, 0.085 (QWRs) to 0.29 and 0.53 (HWRs). 8T superconducting solenoids are installed in the cryomodules for space effective strong beam focusing. The biggest challenges are in accelerating the high-power heavy ion beams from the very low energy to medium energy and the stable operation for large user community. The SRF cryomodule design addressed three critical issues: high performance, stable operation and easy maintainability, which chose several unique technical strategies, e.g.2K operation, bottom up cryomodule assembly, local magnetic shielding and so on. This talk will include high performance cavity R&D, local magnetic shielding, flux trapping by solenoid fringe field, and bottom up cryomodule assembly.
