TY - CPAPER
AU - Gassner, D.M.
AU - Fedotov, A.V.
AU - Hulsart, R.L.
AU - Kayran, D.
AU - Litvinenko, V.
AU - Michnoff, R.J.
AU - Miller, T.A.
AU - Minty, M.G.
AU - Pinayev, I.
AU - Wilinski, M.
TI - Instrumentation for the Proposed Low Energy RHIC Electron Cooling Project with Energy Recovery
J2 - Proc. of IBIC2014
AB - There is a strong interest in running RHIC at low ion beam energies of 7.7-20 GeV/nucleon [1]; this is much lower than the typical operations with 100 GeV/nucleon. The primary motivation for this effort is to explore the existence and location of the critical point on the QCD phase diagram. Electron cooling can increase the average integrated luminosity and increase the length of the stored lifetime. A cooling system is being designed that will provide a 30 – 50 mA electron beam with adequate quality and an energy range of 1.6 – 5 MeV. The cooling facility is planned to be inside the RHIC tunnel. The injector will include a 704 MHz SRF gun, a 704 MHz 5-cell SRF cavity followed by a normal conducting 2.1 GHz cavity. Electrons from the injector will be transported to the Yellow RHIC ring to allow electron-ion co-propagation for ~20 m, then a 180 degree U-turn electron transport so the same electron beam can similarly cool the Blue ion beam. After the cooling process with electron beam energies of 1.6 to 2 MeV, the electrons will be transported directly to a dump. When cooling with higher energy electrons between 2 and 5 MeV, after the cooling process, they will be routed through the acceleration cavity again to allow energy recovery and less power deposited in the dump. Special consideration is given to ensure overlap of electron and ion beams in the cooling section and achieving the requirements needed for cooling. The instrumentation systems described will include current transformers, beam position monitors, profile monitors, an emittance slit station, recombination and beam loss monitors.
PB - JACoW
CY - Geneva, Switzerland
SP - 49
EP - 54
KW - electron
KW - ion
KW - emittance
KW - gun
KW - linac
DA - 2014/10
PY - 2014
SN - 978-3-95450-141-0
UR - http://jacow.org/IBIC2014/papers/mopf05.pdf
ER -