Definition of tolerances and corrector strengths for the orbit control of the High-Energy Booster ring of the future electro-positron collider

TL;DR

This paper defines tolerances and correction strategies for the orbit control of the High-Energy Booster ring in the proposed 100 km Future Circular Collider, ensuring target performance through analytical and simulation methods.

Contribution

It introduces analytical formulas and simulation approaches to determine corrector strengths and magnet tolerances for the FCC's booster ring.

Findings

Analytical estimates of corrector strengths and magnet tolerances.

Simulation validation of correction scheme effectiveness.

Initial specifications for orbit correctors and alignment tolerances.

Abstract

After the discovery of the Higgs boson at the LHC, particle physics community is exploring and proposing next accelerators, to address the remaining open questions on the underlying mechanisms and constituents of the present universe. One of the studied possibilities is FCC (Future Circular Collider), a 100 km long collider at CERN. The feasibility study of this future proposed accelerator implies the definition of tolerances on magnets imperfections and of the strategies of correction in order to guarantee the target performances of the High Energy Booster ring. The efficiency of the correction scheme, used to control the orbit, directly bounds the corrector needs and magnet tolerances. Analytic formulae give a first estimation of the average rms value of the required linear correctors' strengths and of the allowed magnets misalignments and field quality along the entire ring. The distribution of the correctors along the ring is simulated in order to verify the quality of the residual orbit after the proposed correction strategy and compared with the analytical predictions. First specifications of the orbit correctors strength and tolerances for the alignment of the main elements of the ring are presented. The limits of the studied correction scheme and method are also discussed.