Quantum chromodynamics and nuclear physics at extreme energy density. Progress report, May 15, 1994--May 14, 1995 | Zendy

B. Mueller | Zendy; Roxanne P. Springer | Zendy

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Quantum chromodynamics and nuclear physics at extreme energy density. Progress report, May 15, 1994--May 14, 1995

Author(s) -

B. Mueller,

Roxanne P. Springer

Publication year - 1995

Language(s) - English

Resource type - Reports

DOI - 10.2172/453524

Subject(s) - physics , quantum chromodynamics , regularization (linguistics) , hadron , particle physics , quark–gluon plasma , quark , effective field theory , dimensional regularization , quantum field theory , renormalization , energy density , theoretical physics , quantum electrodynamics , mathematical physics , artificial intelligence , computer science

A brief summary of the progress made for the year is given for each of the following areas: (1) quark-gluon plasma and relativistic heavy ion collisions (nine contributions); (2) effective theories for hadrons and nuclei (four contributions); (4) renormalization group approach to field theory at finite temperature; (5) symmetry-preserving regularization; and (6) an effective field theory approach to the cosmological constant problem

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