Results 201 to 210 of about 9,679 (229)
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Nuclear Physics A, 1993
Abstract I present various aspects of the physics of the quark-gluon plasma. Known properties of the transition from hadronic matter to the quark-gluon plasma are recalled. Progress in the phenomenology of ultra-relativistic heavy ion collisions is discussed on two examples. Some recent theoretical developments are mentioned.
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Abstract I present various aspects of the physics of the quark-gluon plasma. Known properties of the transition from hadronic matter to the quark-gluon plasma are recalled. Progress in the phenomenology of ultra-relativistic heavy ion collisions is discussed on two examples. Some recent theoretical developments are mentioned.
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2008
These lectures present features of high temperature and baryon number density hadronic matter as it might be described by QCD, and describe the possible formation of such matter in ultra-relativistic nucleus-nucleus collisions. The confinement-deconfinement transition, and the chiral symmetry breaking transition are discussed using order parameters ...
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These lectures present features of high temperature and baryon number density hadronic matter as it might be described by QCD, and describe the possible formation of such matter in ultra-relativistic nucleus-nucleus collisions. The confinement-deconfinement transition, and the chiral symmetry breaking transition are discussed using order parameters ...
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Heavy-quark diffusion in the quark–gluon plasma
Progress in Particle and Nuclear Physics, 2023Min He, Hendrik Van Hees, Ralf Rapp
exaly
Equilibration of the Quark-Gluon Plasma at Finite Net-Baryon Density in QCD Kinetic Theory
Physical Review Letters, 2021Xiaojian Du, Soren Schlichting
exaly
2005
Lattice QCD predicts a phase transition to a hitherto unseen state of matter called quark-gluon plasma (QGP). A few microseconds after the big bang, our universe was most likely filled with QGP. Amazingly, attempts to produce QGP in the laboratory are currently going on in the relativistic heavy ion collider (RHIC) in the USA.
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Lattice QCD predicts a phase transition to a hitherto unseen state of matter called quark-gluon plasma (QGP). A few microseconds after the big bang, our universe was most likely filled with QGP. Amazingly, attempts to produce QGP in the laboratory are currently going on in the relativistic heavy ion collider (RHIC) in the USA.
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Resolving the Scales of the Quark-Gluon Plasma with Energy Correlators
Physical Review Letters, 2023Carlota Andres +2 more
exaly
Strongly coupled quark-gluon plasma in heavy ion collisions
Reviews of Modern Physics, 2017Edward Shuryak
exaly
Coalescence Models for Hadron Formation from Quark-Gluon Plasma
Annual Review of Nuclear and Particle Science, 2008Rainer J Fries, V Greco, Paul Sorensen
exaly
Physics of strongly coupled quark–gluon plasma
Progress in Particle and Nuclear Physics, 2009Edward Shuryak
exaly