Cooling of hadrons in Electron Ion Collider (EIC) is critical to achieve EIC design parameters and performance. In this talk we will discuss strategy of hadron beam cooling application for the EIC starting with providing strong cooling of proton beam emittances at injection energy of 24 GeV and potential subsequent cooling at the top collision energies. We will then discuss requirements,...
The Electron-Ion Collider (EIC) requires a high-energy cooler to maintain excellent beam quality and achieve high luminosity throughout long collision stores. To meet this requirement, the EIC project studied a novel approach known as Coherent Electron Cooling (CeC)—referred to as Strong Hadron Cooling (SHC)—which can provide rapid cooling rates at high energies. The SHC relies on an Energy...
We have developed a simulation to model the evolution of proton and gold bunches stored in the Electron-Ion Collider's Hadron Storage Ring (HSR) over the course of several hours, taking into account intrabeam scattering, the beam-beam effect, and particle loss. This has enabled us to predict how various cooling schemes, including microbunched electron cooling and microwave stochastic cooling,...
