39
Optimization
of Electron-Cyclotron-Resonance Charge-Breeder Ions—FAR-TECH, Inc., 10350
Science Center Drive, Building 14, Suite 150, San Diego, CA 92121-1129; 858-455-6655, http://www.far-tech.com
Dr. Jin-Soo
Kim,
Dr. Jin-Soo
Kim, Business Official, kimjs@far-tech.com
DOE Grant No.
DE-FG02-04ER83954
Amount: $700,000
Many Radioactive Ion Beam (RIB) laboratories around the world are using or
planning to use Electron Cyclotron Resonance (ECR) Charge Breeders because
they provide an economical way of producing RIBs. Currently, charge breeders, which produce multi-charged radioactive
ions for nuclear physics research, produce the RIBs by a trial and error
method. This
project will investigate the beam capture processes in charge breeders and
produce a comprehensive suite of numerical simulation tools for the analysis,
design, and optimization of ECR ion sources of rare ion beams produced by
charge breeders. A significant upgrade
to the GEM (Generalized ECR-ion-source Modeling) code will be made, fully
utilizing it, for radioactive ion beam source optimization. Phase I established a groundwork for
understanding beam capture processes for the singly-charged-ions injected to
charge breeders. A
Commercial Applications And Other Benefits as described by the awardee: The numerical optimization of multiply charged (radioactive) ion sources should be directly applicable to the Rare Isotope Accelerator facility that is strongly supported by the DOE. A comprehensive suite of numerical tools also should have industrial applications, including advanced plasma processing.