QCD/String holographic mapping and high energy scattering amplitudes

H. Boschi-Filho; Nelson R. F. Braga

arXiv:hep-th/0207071·hep-th·November 26, 2008

QCD/String holographic mapping and high energy scattering amplitudes

H. Boschi-Filho, Nelson R. F. Braga

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TL;DR

This paper establishes a holographic mapping between string states in AdS space and boundary glueball states, deriving high energy QCD scattering amplitude scalings from bulk-boundary relations.

Contribution

It introduces a novel holographic correspondence linking low energy string states in AdS to high energy boundary glueballs, enabling new insights into QCD scattering behaviors.

Findings

01

Derived momentum scaling laws for high energy QCD amplitudes at fixed angles.

02

Established a one-to-one holographic mapping between bulk dilaton states and boundary glueball states.

03

Connected bulk and boundary scattering amplitudes through the holographic relation.

Abstract

We find a one to one mapping between low energy string dilaton states in AdS bulk and high energy glueball states on the corresponding boundary. This holographic mapping leads to a relation between bulk and boundary scattering amplitudes. From this relation and the dilaton action we find the appropriate momentum scaling for high energy QCD amplitudes at fixed angles.

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