Radiocarbon

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A simulation study for the separation of rare isotopes such as beryllium and aluminum was performed for a new beam line to be attached to the 3MV Tandetron accelerator at the accelerator mass spectrometry (AMS) facility of Seoul National University in Korea. The new beam line will also be used for other scientific applications, namely, ion implantations, Rutherford backscattering, and nuclear astrophysics experiments. It mainly consists of 30 degrees and 100 degrees deflection dipole magnets and drift spaces. A transfer matrix for the beam line was determined by the TRANSPORT code. Simulation of the rare isotope separation was performed by a ray tracing method using the TURTLE code. The simulation results, including the effect of the energy degrader, provide feasibility for the separation of isobars with small mass differences in (super 10) Be- (super 10) B and (super 26) Al- (super 26) Mg.

accelerator mass spectroscopy;Al 26;alkaline earth metals;aluminum ;Asia ;Be 10;beryllium ;C 12;C 13;C 14;carbon ;Far East;instruments ;isotopes ;Korea ;magnesium ;mass spectroscopy;measurement ;metals ;Mg 26;radioactive isotopes;ray tracing;Seoul National University;Seoul South Korea;simulation ;South Korea;spectroscopy ;stable isotopes;Tandetron accelerator