Precision calculation of isospin-symmetry-breaking corrections to T=1/2 mirror decays using multi-reference charge-dependent density functional theory

Abstract

We present systematic study of isospin impurities (α ISB) to the wave functions of T=1/2, 11≤ A ≤ 47 mirror nuclei and the isospin-symmetry-breaking (ISB) corrections (δ ISB V) to their ground state vector β-decays using, for the first time, multi-reference charge-dependent density functional theory (MR-DFT) that includes strong-force-rooted class-III interaction adjusted to correct for the Nolen-Schiffer anomaly in nuclear masses. We demonstrate that, unexpectedly, the strong-force-rooted isovector force gives rise to a large systematic increase of α ISB and δ ISB V as compared to the results obtained within MR-DFT that uses Coulomb interaction as the only source of ISB. This, in turn, increases a central value of the V ud element of the CKM matrix extracted from the T=1/2 mirrors bringing it closer to the value obtained form the purely vector superallowed 0+ 0+ transitions. In order to compute the value of V ud, we performed precision calculation of the Fermi matrix elements in A=19, 21, 35, and 37 mirror nuclei using DFT-rooted configuration-interaction model that includes all relevant axially-deformed particle-hole configurations built upon Nilsson orbitals originating from the spherical sd shell. Our calculations yield |V ud|=0.9736(16).