Tests of a Cryogenic Gas Cell for Radioactive Ion Beam Experiments

K. Chipps; D. Bardayan; J. Blackmon; K. Chae; J. Eastburg; U. Greife; K.L. Jones; R. Kozub; R. Livesay; B. Moazen; C.D. Nesaraja; S. Pain; M. Porter-Peden; F. Sarazin; M.S. Smith

Tests of a Cryogenic Gas Cell for Radioactive Ion Beam Experiments

ORAL

Abstract

The properties of resonances that dominate thermonuclear reaction rates on proton-rich, unstable nuclei can be probed using transfer reactions like ($^{3}$He,p). In inverse kinematics, this is achieved with a radioactive ion beam and a $^{3}$He gas target. A cryogenic gas cell target for such experiments has been constructed at the Colorado School of Mines and tested at Oak Ridge National Laboratory with a stable $^{17}$O beam. The gas cell design has been modified several times, and a number of techniques are being explored to reduce the significant yield from background reactions with the window material. Alternatively, a gas jet target with recycling capability could be a better solution to the long-term problem of using rare gases as targets. Results from our beam tests and future plans will be presented.

^*This work is funded in part by DOE grants DE-FG02-93ER40789, DE-AC05-000R22725, DE-FG52-03NA00143/A004, and the NSF.

Oct. 26, 2006, 1:24 PM – Oct. 26, 2006, 1:36 PM

Authors

K. Chipps
- Colorado School of Mines
D. Bardayan
J. Blackmon
- Oak Ridge National Laboratory
K. Chae
- University of Tennessee
J. Eastburg
U. Greife
- Colorado School of Mines
K.L. Jones
- University of Tennessee
R. Kozub
- Tennessee Technological University
R. Livesay
- Colorado School of Mines
B. Moazen
- University of Tennessee
C.D. Nesaraja
- Oak Ridge National Laboratory
S. Pain
- Rutgers University
M. Porter-Peden
F. Sarazin
- Colorado School of Mines
M.S. Smith
- Oak Ridge National Laboratory