Speaker
Description
Precise optics measurements will be crucial for commissioning and optimising the Future Circular electron-positron Collider, FCC-ee, across its full energy range. To prepare for this challenge, simulation studies have been performed to evaluate the accuracy and robustness of Turn-by-Turn (TbT)–based optics diagnostics applied to the FCC-ee. A central element of this effort is the use of an AC-dipole to generate coherent, controlled beam oscillations suitable for high-quality TbT data analysis.
This contribution presents the latest progress in simulated TbT optics measurements, including sensitivity to Beam Position Monitor (BPM) noise. Particular emphasis is placed on exploring the first specifications for BPMs and AC-dipoles for the FCC-ee, accounting for constraints related to synchrotron-radiation damping, excitation strength, and driving frequency. The results provide essential input for defining the optics-measurement strategy, hardware requirements, and correction schemes foreseen for the FCC-ee.
| In which format do you inted to submit your paper? | LaTeX |
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