Quantum Monte Carlo calculation of δ_{\rm NS} in ^{10}C using an effective field theory approach

Garrett B. King, Joseph Carlson, Abraham R. Flores, Stefano Gandolfi, et. al.

09 Sep 2025.

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Abstract

We compute radiative corrections to the superallowed $\beta$ decay of $^{10}{\rm C}$ in an effective field theory approach using nuclear matrix elements obtained from quantum Monte Carlo calculations. These corrections are an important ingredient in the extraction of the Cabibbo-Kobayashi-Masakawa quark mixing matrix element $V_{ud}$ , and the role of this work is to illuminate the uncertainties arising from nuclear structure. Our results provide good agreement with both the traditional extraction of $V_{ud}$ , as well as with a more recent evaluation performed using the no-core shell model and a dispersion formalism. The dominant uncertainty in this approach is the presence of two unknown low-energy constants that enter into the relevant nuclear matrix elements. Future determinations of these low-energy constants — either from QCD or modeling them with two nucleon amplitudes — would improve the precision of the extraction in this formalism.