SU(3) breaking effect in the Zc and Zcs states
Abstract
Based on the hadronic resonance picture, we propose a possible framework to simultaneously describe the resonance parameters of the observed Zcs and Zc states that are close to the thresholds of the D(*)D(*)s and D(*)D(*) systems, respectively. We construct the effective potentials of the Zcs and Zc states by analogy with the effective potentials of the leading order (LO) and next-to-leading-order (NLO) N-N interactions. Then we introduce an SU(3) breaking factor gx to identify the differences between the effective potentials in the Zcs and Zc states. We perform two calculations to discuss the differences and similarities of the Zcs and Zc states. In the first calculation, we adopt the LECs extracted from the experimental Zcs states to calculate the Zc states, and show that if the Zcs(4000) is the SU(3) partner of the Zc(3900), then our framework can reproduce the large width difference between the Zcs(4000) and Zc(3900) by adjusting the SU(3) breaking factor in a reasonable region. Besides, this SU(3) breaking effect also accounts for the absence of a Zc state with JPC=1++, which should be the SU(3) partner of the Zcs(3985). In the second calculation, we separately fit the LECs from the experimental Zcs and Zc states. We show that these two sets of LECs are very similar to each other, indicating a unified set of LECs that could describe the effective potentials of the Zcs and Zc states simultaneously. Then we proceed to systematically predict the other possible Zcs and Zc states that are close to the D(*)D(*)s and D(*)D(*) systems, respectively. Further explorations on the Zcs states would be crucial to test our theory.
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