High-Precision Ab Initio Radius Calculations of Boron Isotopes
Abstract
We perform a precision study of radii in Boron isotopes for multiple realistic interactions from chiral effective field theory. We obtain predictions of radii with combined many-body and interaction uncertainty quantification from ab initio no-core shell model calculations together with machine learning extrapolation methods. An extension to radius differences further allows us to investigate a potential proton halo in 8B and, moreover, provide predictions that relate directly to the isotope shift, which can be precisely measured in experiments.
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