Gas-Filled Spectrograph

Gas-Filled Spectrograph
In a gas-filled spectrograph, all particle trajectories coalesce into the trajectory of the mean charge state of the equilibrium charge state distribution. By adjusting the pressure in the spectrograph, all particles of various charge states can be collected in the focal plane. The comparison between operating a magnetic separator under high vacuum and gas-filled is shown in the two figures below.


The gas-filled spectrograph increases the efficiency for detecting low yield ERs at near-barrier energies. The technique is particularly useful for reactions using low intensity radioactive ion beams. The layout of the gas-filled split-pole spectrograph is shown below.

A mylar window of 0.94 microns is installed at the entrance of the spectrograph to separate the pressure in the target chamber and the magnet chamber. The focal plane detector consists of a position sensitive avalanche counter (PSAC) and a plastic scintillator. The detector provides position, timing and energy signals.

References

M. Paul, B.G. Glagola, W. Henning, J.G. Keller, W. Kutschera, Z. Liu, K.E. Rehm, B. Schneck, R.H. Siemssen
Nucl. Instrum. Methods A277, 418 (1989).

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This file last modified Monday January 08, 2007