Uncertainty quantification of collective nuclear observables from the chiral potential parametrization

Uncertainty quantification of collective nuclear observables from the chiral potential parametrization

We perform an uncertainty estimate of quadrupole moments and B ( E 2) transition rates that inform nuclear collectivity. In particular, we study the low-lying states of 6 Li and 12 C using the ab initio symmetry-adapted no-core–shell model. For a narrow standard deviation of approximately 1% on the...

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Veröffentlicht in:Physica scripta 2024-12, Vol.99 (12), p.125311
Hauptverfasser: Becker, Kevin S, Launey, Kristina D, Ekström, Andreas, Dytrych, Tomáš, Langr, Daniel, Sargsyan, Grigor H, Draayer, Jerry P
Format: Artikel
Sprache:eng
Schlagworte:
ab initio
nuclear collectivity
symmetry
uncertainty quantification
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Zusammenfassung:We perform an uncertainty estimate of quadrupole moments and B ( E 2) transition rates that inform nuclear collectivity. In particular, we study the low-lying states of 6 Li and 12 C using the ab initio symmetry-adapted no-core–shell model. For a narrow standard deviation of approximately 1% on the low-energy constants which parametrize high-precision chiral potentials, we find output standard deviations in the collective observables ranging from approximately 3%–6%. The results mark the first step towards a rigorous uncertainty quantification of collectivity in nuclei that aims to account for all sources of uncertainty in ab initio descriptions of challenging collective and clustering observables.
ISSN:0031-8949
1402-4896
1402-4896
DOI:10.1088/1402-4896/ad8527