Material options for the superconducting rf system of the Future Circular Collider

The design of the superconducting RF (SRF) systems of the Future Circular Collider (FCC) machine variants requires a thorough comparison of the different options for cavity material, oper- ating temperature and frequency. We collected representative SRF performance data at different frequencies and temperatures of bulk niobium as the standard technology and of niobium thin films as a potential alternative and develop a perspective for future performance for all material- frequency-temperature combinations as function of accelerating gradient. Based on this perspective, we estimate the corresponding cryogenic grid power for the different FCC machines showing the most favourable accelerating gradients for the different materials and operating temperatures. Further- more, we discuss advantages, disadvantages and limitations of the different technology options to be taken into consideration.