English

The Roper resonance: a genuine quark state or a dynamically generated structure?

High Energy Physics - Phenomenology 2018-03-14 v3 Nuclear Theory

Abstract

In view of the recent results of lattice QCD simulation in the P11 partial wave that has found no clear signal for the three-quark Roper state we investigate a different mechanism for the formation of the Roper resonance in a coupled channel approach including the πN\pi N, πΔ\pi\Delta and σN\sigma N channels. We fix the pion-baryon vertices in the underlying quark model while the ss-wave sigma-baryon interaction is introduced phenomenologically with the coupling strength, the mass and the width of the σ\sigma meson as free parameters. The Laurent-Pietarinen expansion is used to extract the information about the SS-matrix pole. The Lippmann-Schwinger equation for the KK matrix with a separable kernel is solved to all orders. For sufficiently strong σNN\sigma NN coupling the kernel becomes singular and a quasi-bound state emerges at around 1.4~GeV, dominated by the σN\sigma N component and reflecting itself in a pole of the SS-matrix. The alternative mechanism involving a (1s)22s(1s)^22s quark resonant state is added to the model and the interplay of the dynamically generated state and the three-quark resonant state is studied. It turns out that for the mass of the three-quark resonant state above 1.6~GeV the mass of the resonance is determined solely by the dynamically generated state, nonetheless, the inclusion of the three-quark resonant state is imperative to reproduce the experimental width and the modulus of the resonance pole.

Keywords

Cite

@article{arxiv.1709.09025,
  title  = {The Roper resonance: a genuine quark state or a dynamically generated structure?},
  author = {B. Golli and H. Osmanović and S. Širca and A. Švarc},
  journal= {arXiv preprint arXiv:1709.09025},
  year   = {2018}
}

Comments

11 pages, 11 figures; two figures added with some minor modifications of the text. To be published in Phys. Rev. C

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