Two Lectures on the Phase Diagram of QCD

The phase diagram of QCD at finite temperature and density is discussed. Large number of quark colors, \ (N₂ 1\), is used to explain generic features of the phase diagram. For temperatures below \ (T 160\) MeV at zero baryon number density, the three-dimensional string model is shown to describe the thermodynamics of QCD, as well as, the integrated spectrum of non-Goldstone mesons and glueballs. The lowest mass state in the spectrum of the open and closed string is treated separately due to the tachyon problem of string theory. This is with no undetermined free parameters. It is argued that there are at least three phases at zero baryon number density characterized by the \ (N₂\) dependence of extensive thermodynamic quantities. It is also argued that the intermediate phase has restored chiral symmetry. At high baryon number density and low temperature, again there are three phases. A Quarkyonic phase, with energy density of order \ (N₂\), is distinguished from its counterpart at low baryon density and temperature by its chiral properties. Abstract Published by the Jagiellonian University 2026 authors