English

The $\Lambda_c(2595)$ resonance as a dynamically generated state: the compositeness condition and the large $N_c$ evolution

High Energy Physics - Phenomenology 2016-06-29 v1

Abstract

Recent studies have shown that the well established Λc(2595)\Lambda_c(2595) resonance contains a large meson-baryon component, which can vary depending on the specific formalism. In this work, we examine such a picture by utilizing the compositeness condition and the large number of colors (NcN_c) expansion. We examine three different models fulfilling two body unitarity in coupled-channels, and adopting renormalization schemes where the mass of the Λc(2595)\Lambda_c(2595) resonance is well described, but not necessarily its width, since we do not consider three body channels and work at the isospin symmetric limit. Both approximations might have an effect larger on the width than on the mass. In this context, our studies show that the compositeness of the Λc(2595)\Lambda_c(2595) depends on the number of considered coupled channels, and on the particular regularization scheme adopted in the unitary approaches and, therefore, is model dependent. In addition, we perform an exploratory study of the Λc(2595)\Lambda_c(2595) in the large NcN_c expansion, within a scheme involving only the πΣc\pi\Sigma_c and KΞcK\Xi'_c channels, whose dynamics is mostly fixed by chiral symmetry. In this context and formulating the leading-order interaction as a function of NcN_c, we show that for moderate Nc>3N_c> 3 values, the mass and width of the Λc(2595)\Lambda_c(2595) deviate from those of a genuine qqqqqq baryon, implying the relevance of meson-baryon components in its wave function. Furthermore, we study the properties of the Λc(2595)\Lambda_c(2595), in the strict NcN_c \to \infty limit, using an extension of the chiral Weinberg-Tomozawa interaction to an arbitrary number of flavors and colors. This latter study hints at the possible existence of a (perhaps) sub-dominant qqqqqq component in the Λc(2595)\Lambda_c(2595) resonance wave function, which would become dominant when the number of colors gets sufficiently large.

Keywords

Cite

@article{arxiv.1603.05388,
  title  = {The $\Lambda_c(2595)$ resonance as a dynamically generated state: the compositeness condition and the large $N_c$ evolution},
  author = {Jun-Xu Lu and Hua-Xing Chen and Zhi-Hui Guo and J. Nieves and Ju-Jun Xie and Li-Sheng Geng},
  journal= {arXiv preprint arXiv:1603.05388},
  year   = {2016}
}

Comments

33 pages, 2 figures

R2 v1 2026-06-22T13:12:56.217Z