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Sep 24 – 29, 2023
US/Eastern timezone

22 GeV CEBAF with Novel FFA Design

Sep 26, 2023, 5:00 PM
30m
Junior Ballroom C (Durham Convention Center)

Junior Ballroom C

Durham Convention Center

Talk Future Facilities and Experiments Future Facilities and Experiments

Speaker

Dr Alex Bogacz (Jefferson Lab)

Description

Extending CEBAF energy reach by increasing the number of recirculations, while using the existing SRF system is being explored. Proposed energy upgrade is based on a new approach to multi-pass acceleration of electrons in a single Fixed Field Alternating Gradient (FFA) beam line, configured with Halbach-style permanent magnets. Encouraged by recent success of CBETA, a proposal was formulated to nearly ‘double’ CEBAF energy by replacing the highest energy arcs with a pair of FFA arcs. The new non-scaling FFA arcs would support simultaneous transport of additional 6 passes with energies spanning a factor of two. One of the challenges of the multi-pass (11) linac optics is to assure uniform focusing in a vast range of energies, in a fixed field lattice. Here, we propose a triplet lattice that would provide a stable periodic solution covering energy ratio of 1:33. The current CEBAF injection at 123 MeV, makes optical matching in the first linac virtually impossible due to extremely high energy span ratio (1:175). Replacement of the current injector with a 650 MeV recirculating injector will alleviate that problem. Orbital and optical matching from the FFA arcs to the linacs is implemented as a compact non-adiabatic insert. Presented scheme would promise to deliver a 22 GeV beam with normalized emittance of 80 mm·mrad and with a relative energy spread of 1.5×10-3. Further recirculation beyond 22 GeV is limited by large, 974 MeV per electron, energy loss due to synchrotron radiation.

Primary author

Dr Alex Bogacz (Jefferson Lab)

Presentation materials