Nuclear Charge Radii of B10,11

Nuclear Charge Radii of B10,11

The first laser spectroscopic determination of the change in the nuclear charge radius for a five-electron system is reported. This is achieved by combining high-accuracy ab initio mass-shift calculations and a high-accuracy measurement of the isotope shift in the 2s22p  P21/2→2s23s  S21/2 ground st...

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Veröffentlicht in:Physical review letters 2019-05, Vol.122 (18), p.1
Hauptverfasser: Maaß, Bernhard, Hüther, Thomas, König, Kristian, Krämer, Jörg, Krause, Jan, Lovato, Alessandro, Müller, Peter, Pachucki, Krzysztof, Puchalski, Mariusz, Roth, Robert, Sánchez, Rodolfo, Sommer, Felix, Wiringa, R B, Nörtershäuser, Wilfried
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Boron
Computer simulation
Green's functions
Nuclear structure
Nuclei (nuclear physics)
Spectroscopy
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Zusammenfassung:The first laser spectroscopic determination of the change in the nuclear charge radius for a five-electron system is reported. This is achieved by combining high-accuracy ab initio mass-shift calculations and a high-accuracy measurement of the isotope shift in the 2s22p  P21/2→2s23s  S21/2 ground state transition in boron atoms. Accuracy is increased by orders of magnitude for the stable isotopes B10,11 and the results are used to extract their difference in the mean-square charge radius ⟨rc2⟩11−⟨rc2⟩10=−0.49(12)  fm2. The result is qualitatively explained by a possible cluster structure of the boron nuclei and quantitatively used to benchmark new ab initio nuclear structure calculations using the no-core shell model and Green's function Monte Carlo approaches. These results are the foundation for a laser spectroscopic determination of the charge radius of the proton-halo candidate B8.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.122.182501