Add to ORKGThe cooling of ion beams increases the strengths if their space charge forces and the nonlinearities of such forces. These variations change the stability conditions for trans-verse coherent oscillations of the ion beam and the shape of the stability diagram of these oscillations. The beam cooling holds until the coherent frequency shift of the beam approach the border of its stability diagram. Without spe-cial efforts this phenomenon defines a non-resonant limit on the attainable value of the Laslett tune shift of the ion beam during its e.g. electron cooling
Many explanations of halo formation in high current ion beams require the existence of particles whi...
The Electron cooling beam has both coherent and incoherent effects to the circulating ion beam. The ...
The drift motion of cooling electrons makes them able to respond to transverse perturbations of a co...
The method of characteristics and multiple-scaling perturbation techniques are used to study the spa...
For stripping injection of proton beams in the IUCF Cooler, electron cooling permits us to accumulat...
At the ASTRID storage ring we have recently developed a high resolution technique to monitor the tra...
The longitudinal stability of intense, low momentum spread ion beams is of great interest today, esp...
The interparticle repulsion, or space charge, limits the den-sity of charged particle beams that can...
At the cooler synchrotron COSY electron cooling is used after stripping injection of H- or D- ions i...
Advanced storage ring concepts for intense ion beams often require operation far outside the stabili...
Bunch shortening causes an electron-cooled beam to be space charge dominated at low energies. Instab...
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...
The initial modulation in the scheme for coherent electron cooling (CeC) rests on the screening of t...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Many explanations of halo formation in high current ion beams require the existence of particles whi...
The Electron cooling beam has both coherent and incoherent effects to the circulating ion beam. The ...
The drift motion of cooling electrons makes them able to respond to transverse perturbations of a co...
The method of characteristics and multiple-scaling perturbation techniques are used to study the spa...
For stripping injection of proton beams in the IUCF Cooler, electron cooling permits us to accumulat...
At the ASTRID storage ring we have recently developed a high resolution technique to monitor the tra...
The longitudinal stability of intense, low momentum spread ion beams is of great interest today, esp...
The interparticle repulsion, or space charge, limits the den-sity of charged particle beams that can...
At the cooler synchrotron COSY electron cooling is used after stripping injection of H- or D- ions i...
Advanced storage ring concepts for intense ion beams often require operation far outside the stabili...
Bunch shortening causes an electron-cooled beam to be space charge dominated at low energies. Instab...
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...
The initial modulation in the scheme for coherent electron cooling (CeC) rests on the screening of t...
An asymptotic analysis is carried out to calculate the effects of a small thermal spread in the inje...
Many explanations of halo formation in high current ion beams require the existence of particles whi...
The Electron cooling beam has both coherent and incoherent effects to the circulating ion beam. The ...
The drift motion of cooling electrons makes them able to respond to transverse perturbations of a co...