English

The AdS/QCD Correspondence and Exclusive Processes

High Energy Physics - Phenomenology 2017-08-23 v1 High Energy Physics - Theory

Abstract

The AdS/CFT correspondence between theories in AdS space and conformal field theories in physical space-time provides an analytic, semi-classical, color-confining model for strongly-coupled QCD. The soft-wall AdS/QCD model modified by a positive-sign dilaton metric leads to a remarkable one-parameter description of nonperturbative hadron dynamics at zero quark mass, including a zero-mass pion and a Regge spectrum of linear trajectories with the same slope in orbital angular momentum LL and radial quantum number nn for both mesons and baryons. One also predicts the form of the non-perturbative effective coupling αsAdS(Q)\alpha_s^{AdS}(Q) and its β\beta-function which agrees with the effective coupling αg1\alpha_{g_1} extracted from the Bjorken sum rule. Light-front holography, which connects the fifth-dimensional coordinate of AdS space zz to an invariant impact separation variable ζ\zeta, allows one to compute the analytic form of the frame-independent light-front wavefunctions, the fundamental entities which encode hadron properties as well as decay constants, form factors, deeply virtual Compton scattering, exclusive heavy hadron decays and other exclusive scattering amplitudes. One thus obtains a relativistic description of hadrons in QCD at the amplitude level with dimensional counting for hard exclusive reactions at high momentum transfer. As specific examples we discuss the behavior of the pion and nucleon form factors in the space-like and time-like regions. We also review the phenomenology of exclusive processes including some anomalous empirical results.

Keywords

Cite

@article{arxiv.1007.5385,
  title  = {The AdS/QCD Correspondence and Exclusive Processes},
  author = {Stanley J. Brodsky and Guy F. de Téramond and Alexandre Deur},
  journal= {arXiv preprint arXiv:1007.5385},
  year   = {2017}
}

Comments

Invited talk, presented by SJB at the Workshop on Exclusive Reactions at High Momentum Transfer (IV), May 18-21, 2010, Thomas Jefferson National Accelerator Facility, Newport News, VA

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