Studying the (2030) as a predominantly K* molecular state
Abstract
Since its discovery in 1977, the spin-parity of (2030) has not been fully determined experimentally. The latest Particle Data Group (PDG) listing suggests it may be a baryon with J=5/2. Therefore, studying the mass spectrum and decay properties of (2030) has become a current hot topic to definitively establish its spin-parity. As the three-quark model fails to explain (2030), we previously proposed it may be a molecule primarily composed of K with JP=5/2+, based on its mass spectrum study. To verify its molecular state interpretation, this work proposes studying the strong decays of (2030) assuming it is a P-wave JP=5/2+ meson-baryon molecule predominantly composed of K. We calculated all experimentally measured two-body and three-body final state decay widths of (2030), including (2030) K, K, π, π*, and (2030) ππ, πK, πK. The results indicate that both the total decay width and partial decay widths agree well with experimental values within the error margins. This supports that (2030) is a molecule with spin-parity JP = 5/2+, predominantly composed of K*. Compared to the experimental central values, our results are slightly smaller, which suggests that (2030) may contain additional components besides meson-baryon molecular components, such as three quark structures.
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