L. McLerran scite author profile

Bjorken's hydrodynamic description of the space-time evolution of the central rapidity region in ultrarelativistic heavy-ion collisions is extended to incorporate the chemical processes which affect the strangeness abundance. Scaling hydrodynamic equations which contain the rate equation for strangeness production and annihilation both in the plasma phase and in the hadron gas phase are integrated numerically assuming an almost adiabatic first-order phase transition from plasma to hadron gas. It is found that if a plasma is initially formed the resultant K / T ratio will be enhanced by about a factor of 3 from that in pp collisions. However, this ratio is still smaller than that in an equilibrium hadron gas and hence cannot be considered a direct signal of plasma formation.

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What is the Color Glass Condensate?

McLerran¹

2002

Nuclear Physics A

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Ultra-relativistic heavy ions and the CBA

McLerran¹

1982

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Nuclear theory summer meeting on ERHIC

McLerran¹,

Venugopalan²

2000

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PrefaceThe eRHIC BNL summer meeting was held at BNL from June 26 to July 14, 2000. The meeting was very informal with only two talks a day and with ample time for discussions and collaborations.Several of the theory talks focused on the issue of saturation of par-ton distributions at small x -whether screening effects have already been seen at HERA, the relation of saturation to shadowing, and on the various signatures of a proposed novel state of matter -the Colored Glass Condensate -that may be observed at eRHIC. A related topic that was addressed was that of quantifying twist four effects, and on the relevance of these for studies of energy loss. Other issues addressed were coherence effects in vector meson production, anti-quark distributions in nuclei, and the relevance of saturation for heavy ion cbllisions. There were, also, talks on the Pomeronthe relevance of instantons and the non-perturbative gluon condensate to constructing a Pomeron.On the spin physics side, there were talks on predictions for inclusive distributions at small x. There were, also, talks on Skewed Parton Distributions and Deeply Virtual Compton Scattering.Though most of the talks were theory talks, there were, also, several important experimental contributions.A preliminary detector design for eRHIC was presented. Studies for semi-inclusive measurements at eRHIC were also presented. .The current status of pA scattering studies at RHIC was also discussed.The eRHIC summer meeting provided a vigorous discussion of the current status of eRHIC studies. It is hoped that this document summarizing these discussions will be of use to all those interested in electron nucleus and polarized electron-polarized proton studies. A deep connection between diffraction in electron-proton scattering and the nuclear shadowing phenomenon is emphasized. We argue that results of the diffractive studies at HERA allow us to make reliable predictions for shadowing and coherent diffractive cross sections in inclusive eA scattering in a wide range of x. Model-independent leading twist expressions for shadowing for the interaction with two nucleons are given. Large shadowing in the gluon channel is predicted based on the current evidence of the dominance of gluons in the "perturbative Pomeron". We demonstrate that so called eikonal models of nuclear shadowing grossly underestimate the am.ount of shadowing for the interaction of small dipoles, primarily due to the inadequacy of the fixed number of particle approximation. L. McLerran R. Venugopalan iiPredictions for the fraction of events in small x electron-nucleus scattering due to coherent and incoherent diffraction are also given. I. SHADOWING AND DIFFRACTIONA long time ago V.Gribov [l] investigated the analytic structure of the amplitude for the interaction of highenergy hadrons (photons) with nuclei and established an unambiguous connection between the cross section of small t diffraction of a (virtual) photon or a hadron off the nucleon and the amount of shadowing in the interaction of the projectile with a n...

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L. McLerran

Strangeness production in ultrarelativistic heavy-ion collisions. I. Chemical kinetics in the quark-gluon plasma

Strangeness production in ultrarelativistic heavy-ion collisions. II. Evolution of flavor composition in scaling hydrodynamics

What is the Color Glass Condensate?

Ultra-relativistic heavy ions and the CBA

Nuclear theory summer meeting on ERHIC

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