Recent $\bar{B} \rightarrow D^{(*)} τ^- \barν_τ$ Studies at Belle

Abstract: The semitauonic decay $\bar{B} \rightarrow D^* \tau^- \bar{\nu}\tau$ is sensitive to new physics beyond the Standard Model (SM) that has an enhanced coupling to the $\tau$ lepton. In the ratio of branching fractions $R(D^*) = \mathcal{B}(\bar{B} \rightarrow D^* \tau^- \bar{\nu}\tau) / \mathcal{B}(\bar{B} \rightarrow D^* \ell^- \bar{\nu}\ell)$, where $\ell^- = e^-$ or $\mu^-$, a 3.3$\sigma$ anomaly was observed. In order to investigate the anomaly further, Belle performed a new $R(D^*)$ measurement using one-prong hadronic $\tau$ decays, which was statistically independent of the previous two measurements. This measurement included the first measurement of the $\tau$ polarization $P\tau(D^*)$ using the kinematics of the two-body decays. The obtained results, $R(D^*) = 0.270 \pm 0.035 ({\rm stat}) ^{+0.028}_{-0.025} ({\rm syst})$ and $P_\tau(D^*) = -0.38 \pm 0.51 (stat) ^{+0.21}_{-0.16} (syst)$, were consistent both with the SM and the world-average $R(D^*)$. Including this result, the $R(D^*)$ anomaly became 3.4$\sigma$ away from the SM prediction.