Observation of B^+ -> \bar{\Xi}_c^0\Lambda_c^+ and Evidence for B^0 -> \bar{\Xi}_c^-\Lambda_c^+

TL;DR

This paper reports the first observation of a two-body exclusive B+ decay into two charmed baryons and provides evidence for a similar B0 decay, using data from the Belle detector at KEKB.

Contribution

It presents the first observation of B+ -> ar{\xi}_c^0 \xi_c^+ and evidence for B^0 -> ar{\xi}_c^- \xi_c^+ decays, with measured branching fractions.

Findings

First observation of B+ -> ar{\xi}_c^0 \xi_c^+ decay.

Evidence for B^0 -> ar{\xi}_c^- \xi_c^+ decay.

Measured branching fractions with statistical and systematic uncertainties.

Abstract

We report the first observation of the decay B+ -> \bar{\Xi}_c^0 \Lambda_c^+ with a significance of 8.7 \sigma and evidence for the decay B^0 -> \bar{\Xi}_c^-\Lambda_c^+ with a significance of 3.8 \sigma. The product Br(B^+ -> \bar{\Xi}_c^0\Lambda_c^+)\times Br(\bar{\Xi}_c^0 -> \bar{\Xi}^+\pi^-) is measured to be (4.8^{+1.0}_{-0.9}\pm 1.1\pm 1.2)\times 10^{-5}, and Br({B^0} -> \bar{\Xi}_c^-\Lambda_c^+)\times Br(\bar{\Xi}_c^- -> \bar{\Xi}^+\pi^-\pi^-) is measured to be (9.3^{+3.7}_{-2.8}\pm 1.9\pm 2.4)\times 10^{-5}. The errors are statistical, systematic and the error of the \Lambda_c^+ -> pK^-\pi^+ branching fraction, respectively. The decay B^+ -> \bar{\Xi}_c^0\Lambda_c^+ is the first example of a two-body exclusive B^+ decay into two charmed baryons. The data used for this analysis was accumulated at the \Upsilon(4S) resonance, using the Belle detector at the e^+ e^- asymmetric-energy collider KEKB. The integrated luminosity of the data sample is equal to 357 {fb}^{-1}, corresponding to 386\times 10^{6} B{\bar B} pairs.