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The cyclotron gas stopper project at the NSCL.

Authors :
Guénaut, C.
Bollen, G.
Chouhan, S.
Marti, F.
Morrissey, D. J.
Lawton, D.
Ottarson, J.
Pang, G. K.
Schwarz, S.
Sherrill, B. M.
Wada, M.
Zeller, A. F.
Source :
Hyperfine Interactions; 2006, Vol. 173 Issue 1-3, p35-40, 6p, 2 Diagrams, 2 Graphs
Publication Year :
2006

Abstract

Gas stopping is becoming the method of choice for converting beams of rare isotopes obtained via projectile fragmentation and in-flight separation into low-energy beams. These beams allow ISOL-type experiments, such as mass measurements with traps or laser spectroscopy, to be performed with projectile fragmentation products. Current gas stopper systems for high-energy beams are based on linear gas cells filled with 0.1–1 bar of helium. While already used successfully for experiments, it was found that space charge effects induced by the ionization of the helium atoms during the stopping process pose a limit on the maximum beam rate that can be used. Furthermore, the extraction time of stopped ions from these devices can exceed 100 ms causing substantial decay losses for very short-lived isotopes. To avoid these limitations, a new type of gas stopper is being developed at the NSCL/MSU. The new system is based on a cyclotron-type magnet with a stopping chamber filled with Helium buffer gas at low pressure. RF-guiding techniques are used to extract the ions. The space charge effects are considerably reduced by the large volume and due to a separation between the stopping region and the region of highest ionization. Cyclotron gas stopper systems of different sizes and with different magnetic field strengths and field shapes are presently investigated. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03043843
Volume :
173
Issue :
1-3
Database :
Complementary Index
Journal :
Hyperfine Interactions
Publication Type :
Academic Journal
Accession number :
26147569
Full Text :
https://doi.org/10.1007/s10751-007-9539-y