Abstract The 2 MeV electron cooling system for COSY-Julich was proposed to further boost the luminosity in presence of strong heating effects of high-density internal targets. The 2 MeV cooler is also well suited in the start up phase of the High Energy Storage Ring (HESR) at FAIR in Darmstadt. It can be used for beam cooling at injection energy and for testing new features of the high energy electron cooler for HESR. The COSY cooler is designed on the classic scheme of low energy coolers like cooler CSRm, CSRe, LEIR that was produced in BINP before. The electron beam is transported inside the longitudinal magnetic field along whole trajectory from an electron gun to a collector. The 2 MeV electron cooler was installed in the COSY ring in t...
The report deals with beam instrumentation of the electron cooler for COSY storage ring. The electro...
The existing electron cooler at COSY is a conventional device with energies up to 100 keV. At presen...
The availability of antiprotons with high beam quality in the energy range 0.8-14.5 GeV in the stora...
The design, construction and installation of a 2 MeV electron cooling system for COSY-Juelich is pro...
The 2 MeV electron cooler is operated in the COSY ring since 2013. So far electron beam up to 1.5 Me...
The 2 MeV electron cooling system for COSY-Julich has highest energy for the electron cooler with st...
An electron cooler designed at the Budker Institute of Nuclear Physics for the Cooler Synchrotron CO...
COSY, a COoler SYnchrotron and storage ring has been initially equipped with a low energy electron c...
COSY, a COoler SYnchrotron and storage ring has been initially equipped with a low energy electron c...
COSY electronic cooling is used after charge-exchange injection of H- or D- to produce the required ...
The 2 MeV electron cooler has been installed in the COSY ring to provide e-cooling of p+ and d+ beam...
The COSY control system as well as other subsystems are being upgraded. The 2 MeV electron cooler wa...
This report is dedicated to investigation of the beam parameter evolution in the experiments with in...
COSY Jülich is a cooler synchrotron and storage ring with a proton momentum range from 270 to 3300 M...
The 2 MeV electron cooler allows for cooling the proton and deuteron beams in the entire energy rang...
The report deals with beam instrumentation of the electron cooler for COSY storage ring. The electro...
The existing electron cooler at COSY is a conventional device with energies up to 100 keV. At presen...
The availability of antiprotons with high beam quality in the energy range 0.8-14.5 GeV in the stora...
The design, construction and installation of a 2 MeV electron cooling system for COSY-Juelich is pro...
The 2 MeV electron cooler is operated in the COSY ring since 2013. So far electron beam up to 1.5 Me...
The 2 MeV electron cooling system for COSY-Julich has highest energy for the electron cooler with st...
An electron cooler designed at the Budker Institute of Nuclear Physics for the Cooler Synchrotron CO...
COSY, a COoler SYnchrotron and storage ring has been initially equipped with a low energy electron c...
COSY, a COoler SYnchrotron and storage ring has been initially equipped with a low energy electron c...
COSY electronic cooling is used after charge-exchange injection of H- or D- to produce the required ...
The 2 MeV electron cooler has been installed in the COSY ring to provide e-cooling of p+ and d+ beam...
The COSY control system as well as other subsystems are being upgraded. The 2 MeV electron cooler wa...
This report is dedicated to investigation of the beam parameter evolution in the experiments with in...
COSY Jülich is a cooler synchrotron and storage ring with a proton momentum range from 270 to 3300 M...
The 2 MeV electron cooler allows for cooling the proton and deuteron beams in the entire energy rang...
The report deals with beam instrumentation of the electron cooler for COSY storage ring. The electro...
The existing electron cooler at COSY is a conventional device with energies up to 100 keV. At presen...
The availability of antiprotons with high beam quality in the energy range 0.8-14.5 GeV in the stora...