$Ab~initio$ calculations for Gamow-Teller strengths in $sd$ shell

TL;DR

This study evaluates the predictive accuracy of ab initio effective interactions derived from IM-SRG and CCEI methods for Gamow-Teller strengths in sd shell nuclei, comparing results with experimental data and phenomenological models.

Contribution

It systematically tests ab initio interactions against experimental Gamow-Teller data in sd shell nuclei, highlighting their predictive capabilities and limitations.

Findings

Ab initio interactions show reasonable agreement with experimental data.

USDB phenomenological results are more consistent with experiments.

Calculated electron capture rates using ab initio interactions are comparable to phenomenological models.

Abstract

In the present work we perform a systematic shell model study of Gamow-Teller transition strength distributions in $sd$ shell nuclei using $ab~initio$ effective interactions. The $ab~initio$ effective interactions are based on in-medium similarity renormalization group (IM-SRG) and coupled-cluster effective interaction (CCEI) approaches. The aim of the present work is to test the predictive power of $ab~initio$ effective interactions by using the available experimental data of Gamow-Teller strength distributions in $sd$ shell nuclei. We perform calculations for $^{20}$Ne $\rightarrow$ $^{20}$F, $^{23}$Na $\rightarrow$ $^{23}$Mg, $^{23}$Na $\rightarrow$ $^{23}$Ne, $^{24}$Mg $\rightarrow$ $^{24}$Na, $^{24}$Mg $\rightarrow$ $^{24}$Al, $^{25}$Mg $\rightarrow$ $^{25}$Al, $^{26}$Mg $\rightarrow$ $^{26}$Na, $^{26}$Mg $\rightarrow$ $^{26}$Al, $^{26}$Si $\rightarrow$ $^{26}$Al, $^{27}$Al $\rightarrow$ $^{27}$Si, $^{28}$Si $\rightarrow$ $^{28}$P, $^{31}$P $\rightarrow$ $^{31}$Si, and $^{32}$S $\rightarrow$ $^{32}$P transitions. For comparison we also show the results obtained by using the phenomenological USDB Hamiltonian. The phenomenological USDB results of the Gamow-Teller (GT$_+$/GT$_-$) strength distributions show reasonable agreements with the experimental data in comparison to the $ab~initio$ interactions. We also calculate the electron capture reaction rates for $^{23}$Na(e$^-$, $\nu$)$^{23}$Ne and $^{25}$Mg(e$^-$, $\nu$)$^{25}$Na using $ab~initio$ and USDB interactions.