Fluorides or hydrides? 41Ca performance at VERA’s 3-MV AMS facility

Recent improvements in isobaric suppression for medium-mass isotopes, e.g. 41Ca, offer new possibilities for tandem accelerators with terminal voltages of 3 MV or lower; i.e. when dealing with particle energies ⩽1 MeV/amu. In particular, detection of 41Ca requires sufficient discrimination of the st...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2010-04, Vol.268 (7), p.799-803
Main Authors: Wallner, A., Forstner, O., Golser, R., Korschinek, G., Kutschera, W., Priller, A., Steier, P., Vockenhuber, C.
Format: Article
Language:English
Subjects:
41Ca
AMS
CaF 2
CaH 2
formula omitted
Ionization chamber
SiN
ΔTOF
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Summary:Recent improvements in isobaric suppression for medium-mass isotopes, e.g. 41Ca, offer new possibilities for tandem accelerators with terminal voltages of 3 MV or lower; i.e. when dealing with particle energies ⩽1 MeV/amu. In particular, detection of 41Ca requires sufficient discrimination of the stable isobar 41K. We explored the limits of 41Ca detection at our 3-MV AMS facility by means of different types of particle detectors: The ΔTOF method, which is based on the different flight-time of isobars after passing a thick absorber foil. The second method makes use of a new type of compact ionization chamber: 41K and 41Ca are separated in energy due to their different energy loss in the detector entrance foil and the detector gas, which is measured via a segmented anode. At VERA we measured 41Ca/Ca ratios below 10 −13 for commercial CaF 2 material serving as blank samples. CaH 2 sputter targets, with the extraction of CaH 3 - , yielded background ratios as low as 41Ca/Ca = 1 × 10 −15. The typical measurement precision at VERA for 41Ca measurements was between 2% and 5%. These results demonstrate that AMS facilities based on 3-MV tandems have reached the sensitivity level of larger AMS facilities for a wide range of applications, with the advantage of high overall efficiency and sample throughput.
ISSN:0168-583X
1872-9584
DOI:10.1016/j.nimb.2009.10.034