On sum rules for semi-leptonic $b \to c$ and $b \to u$ decays

TL;DR

This paper derives model-independent sum rules for semi-leptonic $b o c$ and $b o u$ decays, linking various ratios and exploring implications for new physics, with a focus on uncertainties and experimental prospects.

Contribution

It introduces the first R ratio sum rule for $b o u$ processes and evaluates uncertainties in $R_X$ ratios considering both SM and NP effects.

Findings

The R ratio sum rule for $b o u$ decays is established for the first time.

Uncertainties in $R_X$ ratios are quantified, including form factor errors.

The study explores NP effects in both $b o c$ and $b o u$ sectors within EFT framework.

Abstract

The semi-leptonic $b \to c l \nu$ processes are receiving a lot of attention, as the lepton flavor universality violation has been hinted by the measured ratios $R_{D^{(*)}} = \Gamma(B \to D^{(*)} \tau\nu)/\Gamma(B \to D^{(*)} \ell\nu)$ for $\ell = e,\mu$. Recently, it has also been pointed out that the baryonic counterpart, $R_{\Lambda_c} = \Gamma (\Lambda_b \to \Lambda_c \tau\nu)/\Gamma (\Lambda_b \to \Lambda_c \ell\nu)$, has a strong correlation with $R_{D^{(*)}}$, referred to as the R ratio sum rule in this paper. The correlation is almost independent of the new physics (NP) contributions and hence can predict $R_{\Lambda_c}$ from the measured $R_{D^{(*)}}$. On the other hand, we have fewer measurements and/or theoretical studies of the semi-leptonic $b \to u l \nu$ processes, although the same arguments can be applied to the ratios $R_\pi$, $R_\rho$, and $R_p$ as above. Since these processes are measurable at the ongoing LHCb run-3 and/or Belle~II experiments, precise studies on them are important as well. In this paper, we obtain the semi-analytic formulae for all the aforementioned $R_X$ ratios in the presence of model-independent NP contributions by using the available lattice QCD and/or light-cone sum rule fits to the form factors. Two novel points are highlighted: (i) We evaluate uncertainties of $R_X$ including both the Standard Model (SM) and NP terms, inherited from the form factor fits, and discuss how the uncertainties affect the $R$ ratio sum rules. (ii) We obtain the R ratio sum rule among the semi-leptonic $b \to u l \nu$ processes for the first time, which provides a complementary motivation for observing these processes. In addition, based on our model-independent results, we investigate how the different NP scenarios work in the $b\to c$ and $b\to u$ sectors and perform a combined study in the framework of SM effective field theory with specific flavor symmetries.