Speaker
Lewis Kennedy
(John Adams Institute for Accelerator Science, University of Oxford, European Organization for Nuclear Research)
Description
The Final Focus System (FFS) results for CLIC at 1.5 TeV have thus far been estimated using a 3 TeV system operated at reduced energy. Here, we present a dedicated design for the 1.5 TeV stage, where we exploit reduced radiation effects to allow stronger dispersion and weaker chromaticity-correcting sextupoles, thereby mitigating beam transport nonlinearities. The performance of both normal-conducting and superconducting beams at 550 GeV are evaluated using the CLIC FFS, addressing the goals defined by the CLIC and Linear Collider Facility at CERN inputs to the European Strategy for Particle Physics Update.
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Author
Lewis Kennedy
(John Adams Institute for Accelerator Science, University of Oxford, European Organization for Nuclear Research)
Co-authors
Philip Burrows
(John Adams Institute for Accelerator Science, University of Oxford)
Rogelio Tomas
(European Organization for Nuclear Research)