Open AccessHandbook of perturbative QCD
Author(s) -
George Sterman,
John Smith,
John C. Collins,
J. Whitmore,
R. Brock,
J. Huston,
Jon Pumplin,
Wu-Ki Tung,
H. Weerts,
C.–P. Yuan,
Stephen Kuhlmann,
Sanjib Mishra,
J. G. Morfín,
Fred Olness,
Joseph F. Owens,
Jian-Wei Qiu,
Davison E. Soper
Publication year - 1995
Publication title -
reviews of modern physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 24.877
H-Index - 363
eISSN - 1538-4527
pISSN - 0034-6861
DOI - 10.1103/revmodphys.67.157
Subject(s) - physics , parton , quantum chromodynamics , perturbative qcd , particle physics , annihilation , scattering , hadron , deep inelastic scattering , quantum field theory , nucleon , field (mathematics) , inelastic scattering , quantum electrodynamics , nuclear physics , quantum mechanics , mathematics , pure mathematics
The elements, theoretical basis, and experimental status of perturbative quantum chromodynamics are presented. Relevant field-theoretic methods are introduced at a nonspecialist level, along with a review of the basic ideas and methods of the parton model. This is followed by an account of the fundamental theorems of quantum chromodynamics, which generalize the parton model. Summaries of the theoretical and experimental status of the most important hard-scattering processes are then given, including electron-positron annihilation, deeply inelastic scattering, and hard hadron-hadron scattering, as induced both by electoweak interactions and by quantum chromodynamics directly. In addition, a discussion is presented of the global fitting approach to the determination of parton distributions in nucleons.
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