Exploring the $ Ω^- $ spectrum in lattice QCD

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-08-29 DOI:arxiv-2408.16281
Liam Hockley, Waseem Kamleh, Derek Leinweber, Anthony Thomas
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Abstract

We present an exploratory lattice QCD analysis of the $ \Omega $-baryon spectrum. Using smeared three-quark operators in a correlation matrix analysis, we report masses for the ground, first and second excited states of the $ J^P = 1/2^\pm,\, 3/2^\pm $ spectra across a broad range in the light quark mass. We investigate the parity and spin quantum numbers for the states observed on the lattice, looking to reconcile these with the resonances encountered in experiment. We find that the $ \Omega^-(2012) $ as reported by the Particle Data Group corresponds to two overlapping resonances with $ J^P = 1/2^- $ and $ 3/2^- $. We also propose quantum number assignments for the higher energy resonances, and identify successive radial excitations within the spectra.
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探索格子 QCD 中的Ω^- $ 谱
我们提出了一种对 $\Omega $重子谱的探索性格子QCD分析。我们在相关矩阵分析中使用了涂抹的三夸克算子,报告了$ J^P =1/2^\pm,\, 3/2^\pm $谱的基态、第一激发态和第二激发态在轻夸克质量的宽范围内的质量。我们研究了在晶格上观测到的态的奇偶性和自旋量子数,试图将它们与实验中遇到的共振相协调。我们发现粒子数据组报告的 $ \Omega^-(2012) $ 与 $ J^P = 1/2^- $ 和 $3/2^- $ 的两个重叠共振相对应。 我们还提出了更高能量共振的量子数分配,并确定了光谱内连续的径向激发。
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arXiv - PHYS - High Energy Physics - Lattice
arXiv - PHYS - High Energy Physics - Lattice
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