Speaker
Description
The Future Circular Electron–Positron Collider (FCC-ee) will be 91 km long and operate in a top-up mode where new beams are continuously injected into the collider. For this purpose, the collider tunnel will also house a 91 km long booster accelerator. During its life cycle, the FCC-ee will operate with different energies to study Z, W, and H bosons and the top quark. The Future Circular Electron–Positron Collider (FCC-ee) will house two Radio Frequency (RF) systems at point L and at point H. Point L will house the 400 MHz cavity and 800 MHz cavity. Point H will house only 800 MHz cavity.
To manage and ensure the 3D space of the elements, including the reserved volume (e.g. transport, handling, survey), integration studies on the machine configuration and layout are progressing with 3D models and corresponding cross-sections. The presentation will give an overview of the RF cavities implementation and their associated connections at point H and point L, with respect to the booster line, general services layout and reserved volume.
