Add to ORKGAt very high energies, the relevant component of the hadron wavefunction can be described as a Color Glass Condensate, i.e., a state of high density gluonic matter whose distribution is random, but frozen over the relevant time scales. The weight function for this distribution obeys a renormalization group equation in the form of a functional Fokker-Planck equation. Its solution leads to an effective theory which predicts gluon saturation at sufficiently high energy, or small Bjorken's $x$
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...
At large collision energy sqrt(s) and relatively low momentum transfer Q, one expects a new regime o...
We describe the light-cone wavefunction in the saturation regime in terms of the density of gluons p...
I review the physical and mathematical foundations for the theoretical description of the hadron wav...
The high energy limit of QCD is controlled by the small-$x$ part of a hadron wavefunction. We argue ...
Gluon distribution function at small x is computed using the extended McLerran-Venugopalan model. A ...
URL: http://www-spht.cea.fr/articles/T00/166 Evolution des gluons en présence d'un condensat de verr...
We present a brief review of phenomenological applications of the gluon saturation approach to the p...
We give an elementary discussion of parton saturation and its descrip-tion by the effective theory o...
We present an explicit and simple form of the renormalization group equation which governs the quant...
We demonstrate that the dipole-hadron cross-section computed from the non-linear evolution equation ...
We argue that the gauge invariant source terms in the formalism of the Color Glass Condensate (CGC) ...
We show that instanton calculations in QCD become theoretically well defined in the gluon saturation...
AbstractThe initial energy density produced in an ultrarelativistic heavy ion collision can, in the ...
We show that the evolution equations in QCD predict geometric scaling for quark and gluon distributi...
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...
At large collision energy sqrt(s) and relatively low momentum transfer Q, one expects a new regime o...
We describe the light-cone wavefunction in the saturation regime in terms of the density of gluons p...
I review the physical and mathematical foundations for the theoretical description of the hadron wav...
The high energy limit of QCD is controlled by the small-$x$ part of a hadron wavefunction. We argue ...
Gluon distribution function at small x is computed using the extended McLerran-Venugopalan model. A ...
URL: http://www-spht.cea.fr/articles/T00/166 Evolution des gluons en présence d'un condensat de verr...
We present a brief review of phenomenological applications of the gluon saturation approach to the p...
We give an elementary discussion of parton saturation and its descrip-tion by the effective theory o...
We present an explicit and simple form of the renormalization group equation which governs the quant...
We demonstrate that the dipole-hadron cross-section computed from the non-linear evolution equation ...
We argue that the gauge invariant source terms in the formalism of the Color Glass Condensate (CGC) ...
We show that instanton calculations in QCD become theoretically well defined in the gluon saturation...
AbstractThe initial energy density produced in an ultrarelativistic heavy ion collision can, in the ...
We show that the evolution equations in QCD predict geometric scaling for quark and gluon distributi...
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...
At large collision energy sqrt(s) and relatively low momentum transfer Q, one expects a new regime o...
We describe the light-cone wavefunction in the saturation regime in terms of the density of gluons p...