Gluon Saturation and Black Hole Criticality
Abstract
We discuss the recent proposal in hep-th/0611312 where it was shown that the critical anomalous dimension associated to the onset of non-linear effects in the high energy limit of QCD coincides with the critical exponent governing the radius of the black hole formed in the spherically symmetric collapse of a massless scalar field. We argue that a new essential ingredient in this mapping between gauge theory and gravity is continuous self-similarity, not present in the scalar field case but in the spherical collapse of a perfect fluid with barotropic equation of state. We identify this property with geometric scaling, present in DIS data at small values of Bjorken x. We also show that the Choptuik exponent in dimension five tends to the QCD critical value in the traceless limit of the energy momentum tensor.
Cite
@article{arxiv.0710.2517,
title = {Gluon Saturation and Black Hole Criticality},
author = {L. Alvarez-Gaume and C. Gomez and A. Sabio Vera and A. Tavanfar and M. A. Vazquez-Mozo},
journal= {arXiv preprint arXiv:0710.2517},
year = {2007}
}
Comments
Talk given at 12th International Conference on Elastic and Diffractive Scattering: Forward Physics and QCD, Hamburg, DESY, Germany, 21-25 May 2007