Speaker
Description
Beam-beam interactions constitute an important source of background at any electron-positron ($e^{+}e^{-}$) collider, generating the so-called beam-beam background, with important implications for the design of detectors and their performance. In this talk, we will analyze the impact of beam-beam background for the Cool Copper Collider (C$^3$), utilizing full detector simulation for the SiD detector concept within key4hep and evaluating the occupancy for different subdetector systems. We systematically study the impact on these backgrounds of different beam parameter sets for C$^3$ designed to reduce the total power consumption of the machine. We will also present first studies on beam parameter configurations that achieve significantly higher luminosity through tighter emittances, without compromising detector performance. Our results aim to offer important insights into the interplay between detector and accelerator performance, towards a comprehensive framework to optimize for machine luminosity and power consumption of future linear collider projects.
