Conveners
FCC accelerators: FCC-ee baseline design & optics, top-up
- Angeles Faus-Golfe (IJClab IN2P3 CNRS-Universitรฉ Paris-Saclay (FR))
FCC accelerators: Optics alternatives & lessons
- Mika Masuzawa (KEK)
FCC accelerators: FCC-ee injector incl. booster (i)
- Mark Palmer (BNL)
FCC accelerators: FCC-ee injector incl. booster (ii)
- Sakhorn Rimjaem (Chiang Mai University)
FCC accelerators: FCC-ee injector incl. booster (iii)
- Iryna Chaikovska (CNRS/IJCLab)
FCC accelerators: Collective Effects
- John Byrd (Argonne National Laboratory)
FCC accelerators: FCC-ee optics correction & tuning
- Mark James Boland (University of Saskatchewan (CA))
FCC accelerators: FCC-ee code development and other themes
- Yunhai Cai
FCC accelerators: FCC-hh design
- Giorgio Apollinari (Fermi National Accelerator Lab. (US))
FCC accelerators: High-Field Magnets for FCC-hh (i)
- Soren Prestemon
FCC accelerators: High-Field Magnets for FCC-hh (ii)
- Attilio Milanese (CERN)
Intense positron source is one of a crucial component for future electron positron colliders. Although each project, FCC, ILC, CLIC, CEPC, C3 uses many different technologies for main accelerator, requirement and present design of the positron source are very similar. Recently, under the support of CHART program and FCC feasibility study, positron source design for the FCC has progress...
To maximize integrated luminosity and ensure beam stability by maintaining the charge of colliding bunches, the FCCee collider requires top-up injection. The full-energy booster will accelerate the lepton beams to the collider energy. Top-up injection presents unique challenges to continuously inject with sufficiently high efficiency while minimizing disturbances to the circulating beam and...