Add to ORKGFor stripping injection of proton beams in the IUCF Cooler, electron cooling permits us to accumulate beam currents several times higher than what can be obtained without cooling. Paradoxically, the electron cooling system also appears to be responsible for limiting peak currents in the ring at 45 MeV to about 6 mA. Thus the tool which allows us to accumulate beam also prevents us from accumulating more beam. At this point we can account for some of the observed beam features when we include space charge effects. Presently, we do not, however, have any techniques to counteract the space charge effects and thus raise this intensity limit. I
A combination of electron cooling and rf system is an effective method to compress the beam bunch le...
Recently, it was proposed to use negatively charged electron beams for compensation of beam-beam eff...
Experiments of electron cooling have been done with the HIMAC synchrotron in NIRS. Limitation on co...
This research was sponsored by the National Science Foundation Grant NSF PHY-931478
The cooling of ion beams increases the strengths if their space charge forces and the nonlinearities...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Electron cooling at RHIC-II upgrade imposes strict re-quirements on the quality of the electron beam...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Electron cooling at RHIC-I1 upgrade imposes strict requirements on the quality of the electron beam ...
Because of their high density together with extremely small spreads in betatron frequency and moment...
The interparticle repulsion, or space charge, limits the den-sity of charged particle beams that can...
The review of researches performed by JINR-CERN-ITEP collaboration in 1994-1995 and by JINR group in...
At the ASTRID storage ring we have recently developed a high resolution technique to monitor the tra...
Bunch shortening causes an electron-cooled beam to be space charge dominated at low energies. Instab...
Ion-driven effects in electron beams impose severe limitations on performance of storage rings [1]. ...
A combination of electron cooling and rf system is an effective method to compress the beam bunch le...
Recently, it was proposed to use negatively charged electron beams for compensation of beam-beam eff...
Experiments of electron cooling have been done with the HIMAC synchrotron in NIRS. Limitation on co...
This research was sponsored by the National Science Foundation Grant NSF PHY-931478
The cooling of ion beams increases the strengths if their space charge forces and the nonlinearities...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Electron cooling at RHIC-II upgrade imposes strict re-quirements on the quality of the electron beam...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Electron cooling at RHIC-I1 upgrade imposes strict requirements on the quality of the electron beam ...
Because of their high density together with extremely small spreads in betatron frequency and moment...
The interparticle repulsion, or space charge, limits the den-sity of charged particle beams that can...
The review of researches performed by JINR-CERN-ITEP collaboration in 1994-1995 and by JINR group in...
At the ASTRID storage ring we have recently developed a high resolution technique to monitor the tra...
Bunch shortening causes an electron-cooled beam to be space charge dominated at low energies. Instab...
Ion-driven effects in electron beams impose severe limitations on performance of storage rings [1]. ...
A combination of electron cooling and rf system is an effective method to compress the beam bunch le...
Recently, it was proposed to use negatively charged electron beams for compensation of beam-beam eff...
Experiments of electron cooling have been done with the HIMAC synchrotron in NIRS. Limitation on co...