# A model for pion-pion scattering in large-N QCD

**Authors:** Gabriele Veneziano, Shimon Yankielowicz, Enrico Onofri

arXiv: 1701.06315 · 2017-05-24

## TL;DR

This paper explores a generalized Lovelace-Shapiro model as a toy model for pion-pion scattering in large-N QCD, matching perturbative QCD behavior and satisfying unitarity constraints.

## Contribution

It introduces a generalized model for Pi-Pi scattering that incorporates key large-N QCD features and analyzes unitarity constraints on its parameters.

## Key findings

- Model reproduces asymptotic linear Regge trajectories.
- Matches perturbative QCD power-law behavior.
- Identifies parameter regions satisfying unitarity constraints.

## Abstract

Following up on recent work by Caron-Huot et al. we consider a generalization of the old Lovelace-Shapiro model as a toy model for Pi-Pi scattering satisfying (most of) the properties expected to hold in ('t Hooft's) large-N limit of massless QCD. In particular, the model has asymptotically linear and parallel Regge trajectories at positive t, a positive leading Regge intercept $\alpha_0 < 1$, and an effective bending of the trajectories in the negative-t region producing a fixed branch point at J=0 for $t < t_0 < 0$. Fixed (physical) angle scattering can be tuned to match the power-like (including logarithmic corrections) behavior predicted by perturbative QCD: $A(s,t) ~ s^{-\beta} \log(s)^{-\gamma} F(\theta)$. Tree-level unitarity (i.e. positivity of residues for all values of s and J) imposes strong constraints on the allowed region in the alpha_0-beta-gamma parameter space, which nicely includes a physically interesting region around $\alpha_0 = 0.5$, $\beta = 2$ and $\gamma = 3$. The full consistency of the model would require an extension to multi-pion processes, a program we do not undertake in this paper.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1701.06315/full.md

## References

25 references — full list in the complete paper: https://tomesphere.com/paper/1701.06315/full.md

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Source: https://tomesphere.com/paper/1701.06315