<p>Following Polchinski and Strassler [1] and our previous work [2], we study high-energy pion scattering in the holographic QCD hard-wall model. In particular, we focus on comparing our predictions for the angular dependence of <i>π</i><sup>+</sup><i>π</i><sup>−</sup> → <i>π</i><sup>+</sup><i>π</i><sup>−</sup> scattering with experimental data extracted from the process <i>π</i><sup>−</sup><i>p</i> → <i>π</i><sup>+</sup><i>π</i><sup>−</sup><i>n</i>. Having previously shown that our approach reproduces the constituent counting rule found in QCD, we now observe qualitative agreement between our predictions and the extracted data in the high-energy fixed-angle regime. We also provide predictions for all other 2-to-2 pion scattering processes. Our approach can be extended to a broader range of meson and glueball scattering processes in various holographic QCD models.</p>

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High-energy pion scattering in holographic QCD: A comparison with experimental data

  • Adi Armoni,
  • Dorin Weissman

摘要

Following Polchinski and Strassler [1] and our previous work [2], we study high-energy pion scattering in the holographic QCD hard-wall model. In particular, we focus on comparing our predictions for the angular dependence of π+ππ+π scattering with experimental data extracted from the process πpπ+πn. Having previously shown that our approach reproduces the constituent counting rule found in QCD, we now observe qualitative agreement between our predictions and the extracted data in the high-energy fixed-angle regime. We also provide predictions for all other 2-to-2 pion scattering processes. Our approach can be extended to a broader range of meson and glueball scattering processes in various holographic QCD models.