Anomalous Internal Conversion as a Clue to Solving the 209Bi Puzzle

A numerical analysis of the specific-difference (SD) method for eliminating the Bohr–Weisskopf effect in the theory of hyperfine splitting is performed within a more general theory of anomalous nuclear moments. The limiting accuracy of the SD method is demonstrated. In analyzing experimental data on...

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Published in:	Physics of atomic nuclei Vol. 81; no. 1; pp. 1 - 5
Main Authors:	Karpeshin, F. F., Trzhaskovskaya, M. B.
Format:	Journal Article
Language:	English
Published:	Moscow Pleiades Publishing 2018 Springer Nature B.V
Subjects:	Bismuth isotopes Internal conversion Ions Nuclei Theory Numerical analysis Particle and Nuclear Physics Physics Physics and Astronomy Splitting
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Abstract	A numerical analysis of the specific-difference (SD) method for eliminating the Bohr–Weisskopf effect in the theory of hyperfine splitting is performed within a more general theory of anomalous nuclear moments. The limiting accuracy of the SD method is demonstrated. In analyzing experimental data on the hyperfine splitting in H- and Li-like ions of 209 Bi, it is found that the disagreement between theoretical and experimental results that was reported recently was due to going beyond this theoretical accuracy. Prospects of further experimental and theoretical studies in these realms are discussed.
AbstractList	A numerical analysis of the specific-difference (SD) method for eliminating the Bohr–Weisskopf effect in the theory of hyperfine splitting is performed within a more general theory of anomalous nuclear moments. The limiting accuracy of the SD method is demonstrated. In analyzing experimental data on the hyperfine splitting in H- and Li-like ions of 209Bi, it is found that the disagreement between theoretical and experimental results that was reported recently was due to going beyond this theoretical accuracy. Prospects of further experimental and theoretical studies in these realms are discussed. A numerical analysis of the specific-difference (SD) method for eliminating the Bohr–Weisskopf effect in the theory of hyperfine splitting is performed within a more general theory of anomalous nuclear moments. The limiting accuracy of the SD method is demonstrated. In analyzing experimental data on the hyperfine splitting in H- and Li-like ions of 209 Bi, it is found that the disagreement between theoretical and experimental results that was reported recently was due to going beyond this theoretical accuracy. Prospects of further experimental and theoretical studies in these realms are discussed.
Author	Trzhaskovskaya, M. B. Karpeshin, F. F.
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SubjectTerms	Bismuth isotopes Internal conversion Ions Nuclei Theory Numerical analysis Particle and Nuclear Physics Physics Physics and Astronomy Splitting
Title	Anomalous Internal Conversion as a Clue to Solving the 209Bi Puzzle
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