Further understanding the nature of (2012) within a chiral quark model

Abstract

In our previous works, we have analyzed the two-body strong decays of the low-lying baryon states within a chiral quark model. The results show that the (2012) resonance favors the three-quark state with JP=3/2- classified in the quark model. With this assignment, in the present work we further study the three-body strong decay (2012) *(1530)K πK and coupled-channel effects on (2012) from nearby channels K, η and *(1530)K within the chiral quark model as well. It is found that the (2012) resonance has a sizeable decay rate into the three-body final state πK. The predicted ratio RKπK=B[(2012) *(1530)K πK]/B[(2012) K] 12\% is close to the up limit 11\% measured by the Belle Collaboration in 2019, however, our predicted ratio is too small to be comparable with the recent data 0.97 0.31. Furthermore, our results show that the coupled-channel effects on the (2012) is not large, its components should be dominated by the bare three-quark state, while the proportion of the molecular components is only 16\%. To clarify the nature of (2012), the ratio RKπK is expected to be tested by other experiments.