| Paper | Title | Other Keywords | Page | ||
|---|---|---|---|---|---|
| MOPCH090 | ITEP-TWAC Status Report | ion, synchrotron, injection, booster | 243 | ||
|
Three years of successful operation the ITEP-TWAC facility delivers proton and ion beams in several modes of acceleration and accumulation of by using the multiple charge exchange injection technique*. Substantial progress is achieved in output ion beam current intensity of the linear injector I3, in intensity of the buster synchrotron UK, in efficiency increasing of ion beam stacking and longitudinal compression in the storage ring U10. The machine status analysis and current results of activities aiming at subsequent improvement of beam parameters for extending beam technology applications are presented.
|
*N. Alexeev et al. Laser and Particle Beams (2002) V 20, N3, 385-392. |
|
||
| TUPLS083 | A Low Energy Accumulation Stage for a Beta-beam Facility | ion, electron, injection, SPS | 1693 | ||
|
The EU supported EURISOL Design Study encompasses a beta-beam facility for neutrino physics. Intense electron (anti-)neutrino beams are in such a machine generated through the decay of radioactive ions in a high energy storage ring. The two main candidate isotopes for the generation of a neutrino and an anti-neutrino beam are 6He2+ and 18Ne10+. The intensities required are hard to reach, in particular for the neon case. A possible solution to increase the intensity is to use an accumulator ring with an electron cooler. Critical parameters such as cooling times and current limitations due to space charge and tune shifts are presently being optimized. We will in this presentation give an overview of the low energy accumulation stage and review recent work on this option.
|
|
|