At high temperatures or densities, hadronic matter shows different forms of critical behaviour: colour deconfinement, chiral symmetry restoration, and diquark condensation. I first discuss the conceptual basis of these phenomena and then consider the description of colour deconfinement in terms of symmetry breaking, through colour screening and as percolation transition.
Satz H. Phase transitions in QCD. In: NUCLEAR PHYSICS A. Vol 681. ELSEVIER SCIENCE BV; 2001: 3C-21C.
Satz, H. (2001). Phase transitions in QCD. NUCLEAR PHYSICS A, 681, 3C-21C.
Satz, H. (2001). “Phase transitions in QCD” in NUCLEAR PHYSICS A, vol. 681, (ELSEVIER SCIENCE BV), 3C-21C.
Satz, H., 2001. Phase transitions in QCD. In NUCLEAR PHYSICS A. no.681 ELSEVIER SCIENCE BV, pp. 3C-21C.
H. Satz, “Phase transitions in QCD”, NUCLEAR PHYSICS A, vol. 681, ELSEVIER SCIENCE BV, 2001, pp.3C-21C.
Satz, H.: Phase transitions in QCD. NUCLEAR PHYSICS A. 681, p. 3C-21C. ELSEVIER SCIENCE BV (2001).
Satz, Helmut. “Phase transitions in QCD”. NUCLEAR PHYSICS A. ELSEVIER SCIENCE BV, 2001.Vol. 681. 3C-21C.
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