The $ {\Xi }_{ b c }^{0} \rightarrow D ^0 p K ^- $ decay induced by the weak $ W $ -scattering of constituent $ b $ and $ c $ quarks.

Invariant mass $m( D ^0 p K ^- )$ distribution of selected $ {\Xi }_{ b c }^{0}$ candidates (black points) together with the projection of the fit (blue solid line) for the full data sample. The $ {\Xi }_{ b c }^{0} \rightarrow D ^0 p K ^- $ signal component, with the central mass value varying freely (red dashed line), and combinatorial background (purple dotted line) are also shown.

Invariant mass distribution for $\Lambda ^0_ b \rightarrow D ^0 p K ^- $ candidates in the 2018 data sample (black points). The fit projection (blue solid line) is superimposed. The normalisation component (red dashed line), the misidentified background (brown dashed line), the combinatorial background (purple dotted line), and the $\Xi ^0_ b \rightarrow D ^0 p K ^- $ (green dotted line) components are also shown. Similar distributions are obtained for the 2016 and 2017 data samples.

Efficiency of selected $ {\Xi }_{ b c }^{0} \rightarrow D ^0 p K ^- $ decays as a function of the invariant masses $m( D ^0 p )$ and $m( p K ^- )$ in the simulation. The variation of efficiency across the Dalitz plot reflects the specific phase-space dependent requirements of the selection.

Values of upper limits on $R$ at 95% CL as a function of $m( D ^0 p K ^- )$ for five $ {\Xi }_{ b c }^{0} $ lifetime hypotheses. The curves from top to bottom correspond to lifetime hypotheses from $100\mathrm{ fs} $ to $500\mathrm{ fs} $, respectively.

Animated gif made out of all figures.

Efficiency ratios between the normalisation and signal modes and the single-event sensitivity, $\alpha$ , for the nominal $ {\Xi }_{ b c }^{0}$ hypothesis, $m( {\Xi }_{ b c }^{0} )=6.9 {\mathrm{ Ge V /}c^2} $ and $\tau( {\Xi }_{ b c }^{0} )=400\mathrm{ fs} $. The uncertainties are statistical only.

Summary of the systematic uncertainties on measurement of the production ratio, $R$.

Single-event sensitivity $\alpha $ in units of $10^{-3}$ for different lifetime hypotheses of the $ {\Xi }_{ b c }^{0}$ baryon for different data-taking periods. The uncertainties are due to the limited size of the simulated samples and the statistical uncertainties on the measured $\Lambda ^0_ b $ baryon yields.