Speaker
Paula Desire Valdor
(CERN)
Description
The beam cooling process constitutes a major challenge for the Future Muon Collider, as the beam is initially generated with a large phase-space volume that must be substantially reduced prior to acceleration. This reduction must be achieved on a timescale significantly shorter than the muon lifetime. In the low-energy regime, collective effects such as space charge and intrabeam scattering (IBS) can play a dominant role in emittance evolution and must therefore be accurately accounted for in the lattice design. In this work, space charge and IBS effects are analyzed within the first three cells of the current final cooling lattice, and their impact on emittance growth is evaluated using the tracking code RF-Track.
| What category does your poster fit in? | Muon Cooling |
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Authors
Andrea Latina
(CERN)
Paula Desire Valdor
(CERN)
Co-author
Alexander Gerbershagen
(PARTREC, UMCG, University of Groningen (NL))