$\mathcal{O}(\alpha_s^3)$ calculations for the inclusive determination of $|V_{cb}|$

TL;DR

This paper presents high-precision $ ext{O}( ext{alpha}_s^3)$ calculations for the semileptonic $b o c$ decay rate, improving the accuracy of the inclusive $|V_{cb}|$ determination crucial for testing the Standard Model.

Contribution

The authors provide the first $ ext{O}( ext{alpha}_s^3)$ calculations for the relation between mass schemes and decay rates, enhancing the precision of $|V_{cb}|$ extraction.

Findings

Enhanced theoretical precision in decay rate calculations.

Improved scheme conversion relations for heavy quark masses.

Potential reduction in uncertainties of $|V_{cb}|$ measurements.

Abstract

For the determination of the Cabbibo-Kobayashi-Maskawa matrix element $|V_{cb}|$ from inclusive data a precise knowledge of the semileptonic $b \to c$ decay rate is necessary. Since this observable has a bad convergence behavior when the heavy quark masses are expressed in the on-shell or $\overline{\text{MS}}$ scheme the latest determinations have been obtained in the so called kinetic mass scheme. The relation between the different schemes needs to be known to high precision as well. In this proceedings we present our recent calculations which push the precision of both ingredients to $\mathcal{O}(\alpha_s^3)$. The results can be used to improve the inclusive determination of $|V_{cb}|$.