Conveners
2nd Session: Monday AM2
- Daniela Leitner (Michigan State Unviersity)
The constant need for higher beam intensity of multiply charged ion beams is a strong motivation to investigate high frequency electron cyclotron resonance ion sources. The use of NbTi superconducting coils to generate the ion source magnetic field was successfully demonstrated up to the 28 GHz ECR frequency in many laboratories. Lanzhou laboratory is developing a 45 GHz ion source requiring...
The Extended EBIS will be comprised of two closely coupled RhicEBIS superconducting solenoids to provide a longer ion trap for a 40-50% intensity upgrade. The expected intensity at the Extended EBIS exit is 2.6 x 10$^9$ Au$^{32+}$/pulse and approximately 2.1 x 10$^9$ Au$^{32+}$/pulse at the Booster ring entrance. The electron optics of the gun and collector regions remains essentially the...
The new Krion-6T Electron String Ion Source (ESIS) has been recently developed at JINR as a prototype of the ion source for the Nuclotron-based Ion Collider fAcility(NICA) project [1]. The recent experiments with the Krion-6T ESIS have been done at considerably new physics conditions in continuation of a recent works of our group on basic studies of “electron strings” and its use for highly...
The new AISHa ion source has been designed to generate high brightness multiply charged ion beams for hadrontheraphy applications, with high reliability, easy operations and fast maintenance. In order to get a compact machine the radial confinement is provided by a Halbach-type permanent magnet hexapole structure, while axial confinement is allowed by four high field He$^-$ free...
