Deconfinement of Constituent Quarks and the Hagedorn Temperature
Abstract
The double phase transition of hadronic matter, H, first, to the gas of deconfined constituent quarks (for brevity called valons), Q, and then, secondly, the phase transition from Q to quark-gluon plasma, QGP, is considered within bag model ideology. In distinction from previous double phase transition investigations, it is not supposed that at zero chemical potential (~μ=0~) transition temperatures Td (for H~~Q) and Tch (for Q~~ QGP, chiral restoration) coincide. Then for plausible range of chosen bag constants, BQ for Q and Bq for QGP the phase transition H~ ~ QGP can proceed only via the Q phase (at least at not too much μ). For small μ the gap, Tch~-~Td, is quite essential, up to ≈~50 MeV. The physical meaning of the H~ ~ Q transition temperature, Td, coincide with that of the Hagedorn temperature, TH.
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