Light-Front Dynamics and AdS/QCD Correspondence: The Pion Form Factor in the Space- and Time-Like Regions

TL;DR

This paper explores the connection between Light-Front Dynamics and AdS/QCD correspondence to analytically compute hadron properties like the pion form factor, revealing insights into non-perturbative QCD phenomena.

Contribution

It establishes an exact correspondence between AdS space coordinate and light-front impact variable, enabling analytic calculation of hadron wavefunctions and form factors.

Findings

Computed pion decay constant $f_$ and charge radius.

Analyzed space- and time-like behavior of the pion form factor.

Demonstrated the propagation of electromagnetic current in AdS space.

Abstract

The AdS/CFT correspondence between string theory in AdS space and conformal field theories in physical space-time leads to an analytic, semi-classical model for strongly-coupled QCD which has scale invariance and dimensional counting at short distances and color confinement at large distances. The AdS/CFT correspondence also provides insights into the inherently non-perturbative aspects of QCD such as the orbital and radial spectra of hadrons and the form of hadronic wavefunctions. In particular, we show that there is an exact correspondence between the fifth-dimensional coordinate of anti-de Sitter (AdS) space $z$ and a specific light-front impact variable $\zeta$ which measures the separation of the quark and gluonic constituents within the hadron in ordinary space-time. This connection allows one to compute the analytic form of the frame-independent light-front wavefunctions of mesons and baryons, the fundamental entities which encode hadron properties and which allow the computation of decay constants, form factors and other exclusive scattering amplitudes. Relativistic light-front equations in ordinary space-time are found which reproduce the results obtained using the fifth-dimensional theory. As specific examples we compute the pion coupling constant $f_\pi$, the pion charge radius $< r_\pi^2 >$ and examine the propagation of the electromagnetic current in AdS space, which determines the space and time-like behavior of the pion form factor and the pole of the $\rho$ meson.