e+A physics at a future Electron-Ion Collider
Abstract
A future Electron-Ion Colllider (EIC) is the ideal laboratory for studying the gluon distributions in both nucleons and nuclei for = 63 - 158 (40 - 110) GeV/A for e+p (e+A) collisions. Whilst gluon distributions have been studied extensively in nucleons at HERA, there is very little information on them for 0.1 in nuclei. The rapid increase in the gluon momentum distribution at low- in nucleons found at HERA, if not tamed, leads to the violation of the Froissart Unitarity Bound at small-. This can be achieved in non-linear QCD by allowing for the recombination of low- gluons until saturation of gluon densities occurs. Understanding saturation is an important goal not just for QCD in general, but also in understanding the initial conditions of heavy-ion collisions in particular. In this paper, I describe the physics that will be explored by e+A collisions, where saturation is more easily explored in this mode at an EIC than in e+p collisions due to the large nuclear densities achieved.
Cite
@article{arxiv.0907.2431,
title = {e+A physics at a future Electron-Ion Collider},
author = {M. A. C. Lamont},
journal= {arXiv preprint arXiv:0907.2431},
year = {2009}
}
Comments
DIS 09 Conference proceedings