A signal consistent with the $\Omega$(2012) baryon has been observed with a significance of $15\sigma$ in pp collisions at $\sqrt{s} = 13$ TeV at the LHC. In this paper, the analysis technique is described and measurements of the mass and width of the $\Omega$(2012) are reported, along with the first measurement of its transverse-momentum spectrum and yield. This paper corroborates the observation by Belle of this excited $\Omega$ state and the observation that the $\Omega$(2012) has a rather narrow width for a strongly decaying resonance. The yield measurement is combined with a statistical thermal model calculation of strange baryon yield ratios to obtain estimates of the $\Omega{\rm (2012)}^{-} \rightarrow \Xi\overline{\rm K}$ branching ratios. These results will improve our understanding of the internal structure and mass spectrum of excited baryon states and serve as a baseline for searches regarding modifications of these properties in high-temperature media.
The measured mass of $\Omega(2012)^{-}$ and $\overline{\Omega}(2012)^{+}$ (anti)baryons. The uncertainties are (1) statistical and (2) systematic.
The measured width of $\Omega(2012)^{-}$ and $\overline{\Omega}(2012)^{+}$ (anti)baryons. The uncertainties are (1) statistical and (2) systematic.
The measured $p_{\mathrm{T}}$ spectrum of $\Omega(2012)^{-}$ and $\overline{\Omega}(2012)^{+}$ (anti)baryons in high-multiplicity proton-proton collisions at $\sqrt{s}=13$ TeV. The uncertainties are (1) statistical, (2) total systematic, and (3) the part of the systematic uncertainties that is uncorrelated between $p_{\mathrm{T}}$ bins. The yield values have not been corrected for the $\Omega(2012)^{-}\rightarrow\Xi^{-}\mathrm{K^{0}_{S}}$ branching ratio.
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