The soft Pomeron from AdS-CFT
Abstract
In previous treatments, high energy QCD was analyzed using AdS-CFT a la Polchinski-Strassler. Black hole production in AdS was responsible for power law behaviour of the total QCD cross section. Using the simplest self-consistent gravity dual assumption, that cut-off AdS5 is supplemented by a 5d space X5 of effective ``average'' size much larger than the scale of AdS5, we find an energy behaviour just before the saturation of the Froissart bound that is σtot s1/n= s1/11 s0.0909. It comes from the solution of the Laplacean on AdSd+1× Xd behaving like 1/rn=1/r2(d-1)+d= 1/r11. We argue that this should be present in real QCD as well, as string corrections to the dual scattering are small, and should onset at about Nc2 M1, glueball 10 GeV. Experimentally, one found the ``soft Pomeron'' behaviour, σtot s0.093(2), that onsets at about 9 GeV, that was later argued to be replaced by the unitarized Froissart + reaction-dependent constant behaviour. We argue that the soft Pomeron and the dual behaviour represent the same physics, creation of an effective field theory ``soliton''-like structure (=black hole), that then decays, and so they have to be taken seriously. We thus have an experimental prediction of string theory, literally counting the extra dimensions.
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