English

Elastic $K\pi$ amplitude: a simple model

High Energy Physics - Phenomenology 2008-08-28 v1
Authors: P. C. Magalhães , M. R. Robilotta
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Abstract

We present a chiral model for the J=0,I=1/2,J=0, I=1/2, elastic K\pK\p amplitude, suited to be employed in D+\rarK\p+\p+D^+ \rar K^- \p^+ \p^+ data analyses and valid between threshold and 1.51.5 GeV. Although not as precise as other versions available in the literature, it is rather simple and incorporates the essential physics in this energy domain. In the case of the KK-matrix approximation, the model allows the pole structure of the K\pK\p amplitude to be understood by solving a quadratic equation in ss. We show that the solutions to this equation can be well approximated by polynomials of masses and coupling constants. This analytic structure allows a clear understanding why, depending on the values of one of the coupling constants, one may have one or two physical poles. The model yields a pole, associated with the \k\k, at s=(0.75i0.24)\sqrt{s}= (0.75 - i 0.24) GeV.

Keywords

chiral perturbation theory

Cite

@article{arxiv.0808.3594,
  title  = {Elastic $K\pi$ amplitude: a simple model},
  author = {P. C. Magalhães and M. R. Robilotta},
  journal= {arXiv preprint arXiv:0808.3594},
  year   = {2008}
}

Comments

13 pages, 4 figures

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