S wave Kπscattering and effects of κin J/ψ\to {\bar K}^{*0}(892)K^+π^-

Physics – High Energy Physics – High Energy Physics - Phenomenology

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23 pages, 6 figures; comparison with the results from the Roy equation analysis added. Version accepted for publication in Nuc

Scientific paper

10.1016/j.nuclphysa.2006.04.008

$K\pi$ $S$ wave scattering is studied using a chiral unitary approach (ChUT) taking into account coupled channels. With the amplitudes derived from the lowest order chiral Lagrangian as the kernel of a set of coupled channel Bathe-Salpeter equations, the $I=1/2$ $S$ wave $K\pi$ scattering phase shifts below 1.2 GeV can be fitted by one parameter, a subtraction constant, and a scalar resonance corresponding to the controversial $\kappa$ ($K^*_0(800)$) can be generated dynamically. A good description of the $I=3/2$ $S$ wave $K\pi$ scattering phase shifts below 1.2 GeV can also be obtained. An artificial singularity in the conventional cut-off method of the 2-meson loop integral of the ChUT is found. The formalism is applied to deal with the $S$ wave $K\pi$ final state interaction (FSI) in the decay $J/\psi\to {\bar K}^{*0}(892)K^+\pi^-$, and a qualitatively good fit to the data is achieved. The role of $\kappa$ in the decay is discussed.

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