Abstract
We study the $\chi_{c1} \to \eta \pi^+ \pi^-$ decay, paying attention to the production of $f_0(500)$, $f_0(980)$ and $a_0(980)$ from the final state interaction of pairs of mesons that can lead to these three mesons in the final state, which is implemented using the chiral unitary approach. Very clean and strong signals are obtained for the $a_0(980)$ excitation in the $\eta \pi$ invariant mass distribution and for the $f_0(500)$ in the $\pi^+ \pi^-$ mass distribution. A smaller, but also clear signal for the $f_0(980)$ excitation is obtained. The results are contrasted with experimental data and the agreement found is good, providing yet one more test in support of the picture where these resonances are dynamically generated from the meson-meson interaction.
Highlights
The purpose of the present paper is to make the theoretical study of the process along the lines of the chiral unitary approach, to confront the results with the relevant data already existing and eventually predict some features that could be detected with the coming analysis from the BESIII large statistics experiment
We have made a study of the χc1 → ηπ +π − reaction, looking at the π +π − and ηπ invariant mass distributions
Page 7 of 7 700 singlet of SU(3), which corresponds to the ccnature of the χc1. This gives us the relative weights of three mesons at a primary production step, which can revert into the ηπ +π − in the final state upon interaction of pairs of mesons in coupled channels
Summary
The chiral unitary approach provides a picture for these resonances, it allows one to make clean predictions for any reaction where these resonances are produced, providing, in the worse of the cases, when not enough dynamical information is available for the process studied, ratios for the production of the different resonances. This is a remarkable property of this approach that is not shared by other theoretical approaches trying to interpret the data.
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