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We investigate the detailed structure of the T vs. doping phase diagram of hole doped High-Tc superconducting cuprates, from the point of view of a recently proposed comprehensive theory for these materials. We obtain, in particular, analytic expressions for the transition lines delimiting the Neel phase, TN (x), the Spin-Glass phase, Tg(x) and the CDW Charge Ordered phase, Tco(x). These, results along with the previously derived expressions for the transition lines delimiting the Superconducting phase, Tc (x), the Pseudogap (and Strange Metal) phases, T*(x) and the Fermi Liquid phase, Tfl(x) are in excellent agreement with the experimental data and form an unprecedentedly accurate description of cuprates. Our study reveals, in particular, the complementary role, which is played by the mechanisms responsible for the onset of superconducting (SC) and Spin-Glass (SG) phases in these materials. The absence of SG phases in electron doped High-Tc superconducting cuprates, strongly suggests a different SC mechanism should operate in those materials.
E. C. Marino (Mon,) studied this question.