TITLE:
Why the Spacetime Embedding Incompressible Cores of Pulsars Must Be Conformally Flat?
AUTHORS:
Ahmad A. Hujeirat
KEYWORDS:
Relativity: Numerical, General, Black Hole Physics, Pulsars, Neutron Stars, Pulsars, Superfluidity, Superconductivity, Incompressibility, Gluons, Quarks, Plasmas, QCD
JOURNAL NAME:
Journal of Modern Physics,
Vol.11 No.11,
November
11,
2020
ABSTRACT: The multi-messenger observations of the merger event in GW170817 did not rule out the possibility that the remnant might be a dynamically stable neutron star with . Based on this and other recent events, I argue that the universal maximum density hypothesis should be revived. Accordingly, the central densities in the cores of ultra-compact objects must be upper-limited by the critical density number ncr, beyond which supranuclear dense matter becomes purely incompressible. Based on the spacetime-matter coupling in GR, it is shown that the topology of spacetime embedding incompressible quantum fluids with n=ncr must be Minkowski flat, which implies that spacetime at the background of ultra-compact objects should be bimetric.