Enhancing Particle Acceleration in Booster with Permanent Magnet Accumulator Ring
A permanent magnet accumulator ring could revolutionize the Booster facility, benefiting PIP-II/DUNE programs and advancing FNAL toward a large-scale DS program. By integrating the new 1 GeV line within the existing Booster to BNB enclosure, costs and timelines are significantly reduced. The proposal includes the design of an 800 MeV line for PIP-II injection, with the new accumulator ring redirecting PIP-II linac beam to the Booster for DUNE operations. This innovative approach maximizes efficiency and facilitates DS operations at FNAL.
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Presentation Transcript
Overview A permanent magnet accumulator ring could be built in the Booster enclosure that could greatly benefit PIP II/DUNE program and set FNAL on the path to a large DS program. The existing Booster to BNB enclosure will be contain the new 1 GeV line. Cost and time for this approach is greatly reduced due to synergy to PIP II and present BNB complex. A new 800 MeV line is being designed for the PIP II to Booster Injection. A new accumulator would instead receive the PIP-II linac beam and transfer it to the Booster for DUNE operations. With the rest of the Linac pulses being used for delivery to the BAR for DS operations.
Booster Magnets Accumulator Ring Outside Wall of Booster Booster Tunnel
BAR Parameters BCS & PIP II Upgrade 1 GeV Injection Design to be upgraded BAR power Upgraded 1.6 kw Base 2.4 kw Goal Hardware ~ 3 inch Beam Aperture Cycle rate being explored Hardware limitations At least 100 Hz Radiation limitations Shielding Assessment RF Structure(s) System for Booster/DUNE Pulsed 44 MHz System for DS RF (CW) Bucket loading Barrier Bucket Harmonic flattening Compression Base Power 130 kw 1 E 13/batch Space Charge limitations Painting RF power 100 Hz Upper limit TBD Goal Power 200 kw 1.5E12/batch 100 Hz Pulses Load time about 1.5 ms Pulse width TBD Goal of 300 to 400 ns
