TITLE:
Does Our Universe Conform with the Existence of a Universal Maximum Energy-Density pmaxuni
AUTHORS:
A. A. Hujeirat
KEYWORDS:
General Relativity: Neutron Stars, Incompressible Superfluids, Quantum Chromodynamics, Cosmology: Big Bang Physics, Dark Matter and Dark Energy, Quasars, First Generation of Stars
JOURNAL NAME:
Journal of Modern Physics,
Vol.12 No.7,
May
24,
2021
ABSTRACT: Recent astronomical observations of high redshift quasars, dark matter-dominated galaxies, mergers of neutron stars, glitch phenomena in pulsars, cosmic microwave background and experimental data from hadronic colliders do not rule out, but they even support the hypothesis that the energy-density in our universe most likely is upper-limited by pmaxuni which is predicted to lie between 2 to 3 the nuclear density p0. Quantum fluids in the cores of massive NSs with p ≈ pmaxuni each the maximum compressibility state, where they become insensitive to further compression by the embedding spacetime and undergo a phase transition into the purely incompressible gluon-quark superfluid state. A direct correspondence between the positive energy stored in the embedding spacetime and the degree of compressibility and superfluidity of the trapped matter is proposed. In this paper relevant observational signatures that support the maximum density hypothesis are reviewed, a possible origin of pmaxuni is proposed and finally the consequences of this scenario on the spacetime’s topology of the universe as well as on the mechanisms underlying the growth rate and power of the high redshift QSOs are discussed.