The $\Lambda_c^+\to\eta\pi^+\Lambda$ reaction and the $\Lambda a_0^+(980)$ and $\pi^+\Lambda(1670)$ contributions
Abstract
We study from the theoretical point of view the reaction, recently measured by the Belle and BESIII Collaborations, where clear signals are observed for , , and excitation. By considering the and as dynamically generated resonances from the meson meson and meson baryon interaction, respectively, we are able to determine their relative production strength in the reaction, which is also tied to the strength of the tree level contribution. We observe that this latter strength is very big and there are large destructive interferences between the tree level and the rescattering terms where the and are generated. The contribution is included by means of a free parameter, the only one of the theory, up to a global normalization, when one considers only external emission, and we observe that the spin flip part of this term, usually ignored in theoretical and experimental works, plays an important role determining the shape of the mass distributions. Internal emission is also considered and it is found to play a minor role.
Cite
@article{arxiv.2410.16078,
title = {The $\Lambda_c^+\to\eta\pi^+\Lambda$ reaction and the $\Lambda a_0^+(980)$ and $\pi^+\Lambda(1670)$ contributions},
author = {Man-Yu Duan and Wen-Tao Lyu and Chu-Wen Xiao and En Wang and Ju-Jun Xie and Dian-Yong Chen and Eulogio Oset},
journal= {arXiv preprint arXiv:2410.16078},
year = {2024}
}