A Novel Penning‐Trap Design for the High‐Precision Measurement of the 3 He 2 + Nuclear Magnetic Moment

A Novel Penning‐Trap Design for the High‐Precision Measurement of the 3 He 2 + Nuclear Magnetic Moment

A new experiment is constructed aiming at the first direct high‐precision measurement of the helium‐3 nuclear magnetic moment with a relative precision of parts‐per‐billion or better. Methods similar to those used in proton and antiproton magnetic moment measurements are applied. As those techniques...

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Veröffentlicht in:Annalen der Physik 2019-05, Vol.531 (5)
Hauptverfasser: Schneider, Antonia, Mooser, Andreas, Rischka, Alexander, Blaum, Klaus, Ulmer, Stefan, Walz, Jochen
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container_issue 5
container_start_page
container_title Annalen der Physik
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creator Schneider, Antonia
Mooser, Andreas
Rischka, Alexander
Blaum, Klaus
Ulmer, Stefan
Walz, Jochen
description A new experiment is constructed aiming at the first direct high‐precision measurement of the helium‐3 nuclear magnetic moment with a relative precision of parts‐per‐billion or better. Methods similar to those used in proton and antiproton magnetic moment measurements are applied. As those techniques rely on the challenging detection of single spin‐flips, a novel Penning trap design optimized for nuclear spin‐flip detection is developed.
doi_str_mv 10.1002/andp.201800485
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title A Novel Penning‐Trap Design for the High‐Precision Measurement of the 3 He 2 + Nuclear Magnetic Moment
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