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
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Sprache:	eng
Schlagworte:	ab initio nuclear collectivity symmetry uncertainty quantification
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container_issue	12
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container_title	Physica scripta
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creator	Becker, Kevin S Launey, Kristina D Ekström, Andreas Dytrych, Tomáš Langr, Daniel Sargsyan, Grigor H Draayer, Jerry P
description	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.
doi_str_mv	10.1088/1402-4896/ad8527
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subjects	ab initio nuclear collectivity symmetry uncertainty quantification
title	Uncertainty quantification of collective nuclear observables from the chiral potential parametrization
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