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Color Glass Condensate and Glasma  [PDF]
Francois Gelis
Physics , 2010, DOI: 10.1016/j.nuclphysa.2010.09.001
Abstract: In this talk, I review the Color Glass Condensate theory of gluon saturation, and its application to the early stages of heavy ion collisions.
The Color Glass Condensate at RHIC  [PDF]
Jamal Jalilian-Marian
Physics , 2004, DOI: 10.1088/0954-3899/30/8/014
Abstract: The Color Glass Condensate formalism and its application to high energy heavy ion collisions at RHIC are discussed. We argue that the RHIC data supports the view that the Color Glass Condensate provides the initial conditions for gold-gold collisions at RHIC while final state (Quark Gluon Plasma) effects are responsible for the high $p_t$ suppression in mid rapidity. At forward rapidities in deuteron-gold collisions, however, Color Glass Condensate is the underlying physics of the observed suppression of the particle spectra and their centrality dependence.
The Color Glass Condensate  [PDF]
F. Gelis,E. Iancu,J. Jalilian-Marian,R. Venugopalan
Physics , 2010, DOI: 10.1146/annurev.nucl.010909.083629
Abstract: We provide a broad overview of the theoretical status and phenomenological applications of the Color Glass Condensate effective field theory describing universal properties of saturated gluons in hadron wavefunctions that are extracted from deeply inelastic scattering and hadron-hadron collision experiments at high energies.
Color Glass Condensate and Glasma  [PDF]
F. Gelis
Physics , 2012, DOI: 10.1142/S0217751X13300019
Abstract: We review the Color Glass Condensate effective theory, that describes the gluon content of a high energy hadron or nucleus, in the saturation regime. The emphasis is put on applications to high energy heavy ion collisions. After describing initial state factorization, we discuss the Glasma phase, that precedes the formation of an equilibrated quark-gluon plasma. We end this review with a presentation of recent developments in the study of the isotropization and thermalization of the quark-gluon plasma.
A Brief Introduction to the Color Glass Condensate and the Glasma
McLerran, Larry
High Energy Physics - Phenomenology , 2008,
Abstract: I provide a brief introduction to the theoretical ideas and phenomenological motivation for the Color Glass Condensate and the Glasma
Large mass Q-Qbar production from the Color Glass Condensate  [PDF]
F. Gelis,R. Venugopalan
Physics , 2003, DOI: 10.1103/PhysRevD.69.014019
Abstract: We compute quark-antiquark pair production in the context of the Color Glass Condensate model for central heavy-ion collisions. The calculation is performed analytically to leading order in the density of hard sources present in the projectiles, and is applicable to quarks with a mass large compared to the saturation momentum. The formulas derived in this paper are compared to expressions derived in the framework of collinearly factorized perturbative QCD and in kt factorization models. We comment on the breaking of kt factorization which occurs beyond leading order in our approach.
From percolation to the Color Glass Condensate  [PDF]
Elena Ferreiro
Physics , 2005,
Abstract: I review the problem of parton saturation and its implications through three in principal different approaches, but somewhat related: saturation in a geometrical approach, QCD saturation through the Color Glass Condensate and perturbative Pomeron approach with initial conditions. I also make some comments about how that could be related to a Quark Gluon Plasma formation.
Light projectile scattering off the Color Glass Condensate
Fukushima, Kenji;Hidaka, Yoshimasa
High Energy Physics - Phenomenology , 2007, DOI: 10.1088/1126-6708/2007/06/040
Abstract: We systematically compute the Gaussian average of Wilson lines inherent in the Color Glass Condensate, which provides useful formulae for evaluation of the scattering amplitude in the collision of a light projectile and a heavy target.
Transverse energy density fluctuations in the Color Glass Condensate Model  [PDF]
Berndt Müller,Andreas Sch?fer
Physics , 2011, DOI: 10.1103/PhysRevD.85.114030
Abstract: We calculate the transverse correlation of fluctuations of the deposited energy density in nuclear collisions in the framework of the Gaussian color glass condensate model.
Electromagnetic Signatures of the Color Glass Condensate: Dileptons  [PDF]
Jamal Jalilian-Marian
Physics , 2004, DOI: 10.1016/j.nuclphysa.2004.04.103
Abstract: We evaluate the invariant cross section for production of dileptons in forward rapidities at RHIC and LHC, using the Color Glass Condensate formalism and present results for the nuclear modification factor $R_{d(p)A}$ as a function of dilepton invariant mass for the most central deuteron (proton)-nucleus collisions.
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