The extraction of Th-229(3+) from a buffer-gas stopping cell

In the whole landscape of atomic nuclei, 229Th is currently the only known nucleus which could allow for the development of a nuclear-based frequency standard, as it possesses an isomeric state of just 7.6 eV energy above the ground state. The 3+ charge state is of special importance in this context...

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Veröffentlicht in:	Nuclear Instruments & Methods in Physics Research B 2016-06, Vol.376, p.260-264
Hauptverfasser:	v. d. Wense, L, Seiferle, B, Laatiaoui, Mustapha, Thirolf, P.G
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Sprache:	eng
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description	In the whole landscape of atomic nuclei, 229Th is currently the only known nucleus which could allow for the development of a nuclear-based frequency standard, as it possesses an isomeric state of just 7.6 eV energy above the ground state. The 3+ charge state is of special importance in this context, as Th3+ allows for a simple laser-cooling scheme. Here we emphasize the direct extraction of triply-charged 229Th from a buffer-gas stopping cell. This finding will not only simplify any future approach of 229Th ion cooling, but is also used for thorium-beam purification and in this way provides a powerful tool for the direct identification of the 229Th isomer to ground state nuclear transition.
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title	The extraction of Th-229(3+) from a buffer-gas stopping cell
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