Add to ORKG5 pages, 4 figures (final version)The early stages of high energy heavy ion collisions are studied in the Color Glass Condensate framework, with a real-time classical lattice simulation. When increasing the coupling constant, we observe a rapid increase of the ratio of longitudinal to transverse pressure. The transient regime that precedes this behavior is of the order of 1 fm/c
A current goal of relativistic heavy ion collisions experiments is to understand the impact of initi...
Abstract: The expanding fireball shortly after a heavy ion collision may be qualitatively described ...
We review the Color Glass Condensate effective theory, that describes the gluon content of a high en...
5 pages, 4 figures (final version)The early stages of high energy heavy ion collisions are studied i...
16 pages, invited review by Pramana J of physicsInternational audienceIn this short review, we prese...
At very high energies, the partons in the nuclear wavefunction form a color glass condensate. Since ...
Singh P. Early time dynamics & longitudinal structure of high-energy heavy-ion collisions. Biele...
At very high energies, the partons in the nuclear wavefunction form a color glass condensate. Since ...
International audienceHeavy ion collisions pose interesting challenges to quantum chromodynamics, be...
We report here recent analytical and numerical work on the theoretical treatment of the early stages...
International audienceHeavy ion collisions pose interesting challenges to quantum chromodynamics, be...
We introduce the concept of Color Glass Condensate, that describes the wave-function of a nucleon o...
To achieve an understanding of the thermalization of a quark-gluon plasma, starting from QCD without...
Abstract To understand the dynamics of thermalization in heavy ion collisions in the perturbative fr...
The non-equilibrium early time evolution of an ultra-relativistic heavy ion collision is often descr...
A current goal of relativistic heavy ion collisions experiments is to understand the impact of initi...
Abstract: The expanding fireball shortly after a heavy ion collision may be qualitatively described ...
We review the Color Glass Condensate effective theory, that describes the gluon content of a high en...
5 pages, 4 figures (final version)The early stages of high energy heavy ion collisions are studied i...
16 pages, invited review by Pramana J of physicsInternational audienceIn this short review, we prese...
At very high energies, the partons in the nuclear wavefunction form a color glass condensate. Since ...
Singh P. Early time dynamics & longitudinal structure of high-energy heavy-ion collisions. Biele...
At very high energies, the partons in the nuclear wavefunction form a color glass condensate. Since ...
International audienceHeavy ion collisions pose interesting challenges to quantum chromodynamics, be...
We report here recent analytical and numerical work on the theoretical treatment of the early stages...
International audienceHeavy ion collisions pose interesting challenges to quantum chromodynamics, be...
We introduce the concept of Color Glass Condensate, that describes the wave-function of a nucleon o...
To achieve an understanding of the thermalization of a quark-gluon plasma, starting from QCD without...
Abstract To understand the dynamics of thermalization in heavy ion collisions in the perturbative fr...
The non-equilibrium early time evolution of an ultra-relativistic heavy ion collision is often descr...
A current goal of relativistic heavy ion collisions experiments is to understand the impact of initi...
Abstract: The expanding fireball shortly after a heavy ion collision may be qualitatively described ...
We review the Color Glass Condensate effective theory, that describes the gluon content of a high en...