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HERA Collider Physics

High Energy Physics - Experiment 2014-11-17 v1

Abstract

HERA, the first electron-proton collider, has been delivering luminosity since 1992. It is the natural extension of an impressive series of fixed-target lepton-nucleon scattering experiments. The increase of a factor ten in center-of-mass energy over that available for fixed-target experiments has allowed the discovery of several important results, such as the large number of slow partons in the proton, and the sizeable diffractive cross section at large Q2Q^2. Recent data point to a possible deviation from Standard Model expectations at very high Q2Q^2, highlighting the physics potential of HERA for new effects. The HERA program is currently in a transition period. The first six years of data taking have primarily elucidated the structure of the proton, allowed detailed QCD studies and had a strong impact on the understanding of QCD dynamics. The coming years will bring the era of electroweak studies and high Q2Q^2 measurements. This is therefore an appropriate juncture at which to review HERA results.

Keywords

Cite

@article{arxiv.hep-ex/9903037,
  title  = {HERA Collider Physics},
  author = {Halina Abramowicz and Allen Caldwell},
  journal= {arXiv preprint arXiv:hep-ex/9903037},
  year   = {2014}
}

Comments

351 pages, 154 figures, submitted to Reviews of Modern Physics