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Precise Omega baryons from lattice QCD

High Energy Physics - Lattice 2024-04-04 v1 High Energy Physics - Phenomenology

Abstract

In this paper we determine the masses of I(JP)=0(3/2+)I(J^P)=0\left(3/2^+\right) and 0(3/2)0\left(3/2^-\right) Ω\Omega-baryon ground states using lattice QCD. We utilise Wilson-clover ensembles with 2+12+1 dynamical quark flavours generated by the CLS consortium along a trajectory with a constant trace of the quark-mass matrix. We show that N3^3LO SU(3)f\text{SU}(3)_f chiral perturbation theory expressions describe the ground-state masses with positive-parity well, and we use them to set the lattice scale. Methodologically, our combination of gauge-fixed wall sources and the generalized Pencil of Functions allows for high-precision determinations of the lattice spacing at a relative error of around 0.3%0.3\% with controlled excited-state contamination. The fit we perform allows for the continuum value of t0t_0 to vary, thereby determining this quantity with a comparable level of precision to that of the lattice scale. Using the resulting scales our measurement of the negative-parity Ω3/2\Omega^{3/2^{-}} state is found to be consistent with the recently-discovered Ω(2012)\Omega(2012)^-, which can therefore be assigned the quantum numbers I(JP)=0(3/2)I(J^P)=0\left(3/2^-\right).

Keywords

Cite

@article{arxiv.2404.02769,
  title  = {Precise Omega baryons from lattice QCD},
  author = {Renwick J. Hudspith and Matthias F. M. Lutz and Daniel Mohler},
  journal= {arXiv preprint arXiv:2404.02769},
  year   = {2024}
}

Comments

29 pages, 7 figures

R2 v1 2026-06-28T15:43:04.782Z