Theoretical study of the (2012) state in the c0 π+ (2012)- π+ (K)- and π+ (Kπ)- decays

Abstract

We report on a theoretical study of the newly observed (2012) resonance in the nonleptonic weak decays of c0 π+ K*(1530) (η ) π+ (K)- and π+ (Kπ)- via final-state interactions of the K*(1530) and η pairs. The weak interaction part is assumed to be dominated by the charm quark decay process: c(ss) (s + u + d)(ss), while the hadronization part takes place between the sss cluster from the weak decay and a quark-antiquark pair with the quantum numbers JPC = 0++ of the vacuum, produces a pair of K*(1530) and η . Accordingly, the final K*(1530) and η states are in pure isospin I= 0 combinations, and the c0 π+ K*(1530)(η ) π+ (K)- decay is an ideal process to study the (2012) resonance. With the final-state interaction described in the chiral unitary approach, up to an arbitrary normalization, the invariant mass distributions of the final state are calculated, assuming that the (2012) resonance with spin-parity JP = 3/2- is a dynamically generated state from the coupled channels interactions of the K*(1530) and η in s-wave and K in d-wave. We also calculate the ratio, RKπK = Br[c0 π+ (2012)- π+ (K π)-] / Br[c0 π+ (2012)- π+ (K)-]. The proposed mechanism can provide valuable information on the nature of the (2012) and can in principle be tested by future experiments.