Production of doubly heavy baryon at the Muon-Ion Collider
Abstract
This study forecasts the production of doubly heavy baryons, cc, bc, and bb, within the nonrelativistic QCD framework at the Muon-Ion Collider (MuIC). It examines two production mechanisms: photon-gluon fusion (γ + g (QQ')[n] +Q +Q') and extrinsic heavy quark channels (γ + Q (QQ')[n] + Q'), where Q and Q' denote heavy quarks (c or b) and (QQ')[n] represents a diquark in specific spin-color configurations. The diquark fragments into QQ' baryons with high probability. For cc and bb, the relevant configurations are [1S0]6 (spin-singlet and color-sextuplet) and [3S1]3 (spin-triplet and color-antitriplet). For bc, the configurations are [1S0]3, [1S0]6, [3S1]3, and [3S1]6. The study compares total and differential cross-sections for these channels, highlighting their uncertainties. The results indicate that the extrinsic heavy quark channel, particularly the [3S1]3 configuration, dominates QQ' production, though other diquark states also contribute significantly. Using quark masses mc = 1.80 0.10 GeV and mb = 5.1 0.20 GeV, the study estimates annual event yields at MuIC (s = 1 TeV, luminosity L 40 fb-1) of (3.67+1.29-0.91) × 109 for cc, (2.24+0.28-0.20) × 108 for bc, and (3.00+0.64-0.56) × 106 for bb. These findings suggest that MuIC will significantly enhance our understanding of doubly heavy baryons.
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