Conveners
Joint effort PED & accelerators: Machine Detector Interface (i)
- Fabrizio Palla (Universita & INFN Pisa (IT))
Joint effort PED & accelerators: Machine Detector Interface (ii)
- Manuela Boscolo (INFN e Laboratori Nazionali di Frascati (IT))
Joint effort PED & accelerators: EPOL (i)
- Guy Wilkinson (University of Oxford (GB))
Joint effort PED & accelerators: EPOL (ii)
- Jacqueline Keintzel (CERN)
We present the results of the wake field analyses for different geometries of the IR beam pipe elements like bellows, BPMs, SR mask including beam pipe shape. We found a possibility how to decrease and capture wake fields generated by colliding beams in the interaction region. This optimization study will be useful for the FCC-ee IR beam pipe design.
The Future Circular Collider electron-positron (FCC-ee) is a proposed high-energy lepton collider that aims to reach unprecedented precision in the measurements of fundamental particles. However, several beam related processes produce particles in the Machine-Detector Interface (MDI) region, which can adversely affect the measurements' accuracy. This contribution presents a study of the...
The Electron-Ion Collider (EIC) is an advanced particle accelerator designed to explore matter's fundamental structure at the subatomic scale. It collides high-energy polarized electron beams with ions, like protons or lead nuclei, enabling scientists to scrutinize quark and gluon interactions. The EIC's unique setup provides a platform to study these interactions within atomic nuclei,...
We present the optics design of the solenoid compensation scheme at the FCC-ee.
The 2T solenoids from the experiments induce coupling on the beams, generating an increase on vertical emittance. This compensation scheme minimizes emittance growth, reducing it to below 1% of the nominal value. A screening solenoid is placed around the Final Focus Quadrupoles to protect them from the...
