Author(s)

F. C. Hoh

Retired, Uppsala, Sweden.

By taking into account the relative energy between the diquark and the quark in nucleons, the gravitational singularity in a black hole created from a collapsing neutron star can be removed; compatibility with quantum mechanics is restored. This black hole becomes a “black” neutron star. The negative relative energy identified as dark matter in the previous paper can account for the galaxy rotation curve. The positive relative energy identified as dark energy in the previous paper can explain the accelerating expansion of the universe. A possible scenario for cosmic ray generation is given.

Gravitational Singularity, Relative Energy between Quarks, Scalar Strong Interaction Hadron Theory, “Weightless” Neutron, Black Neutron Star, Galaxy Rotation Curve, Accelerating Expansion of Universe, Cosmic Ray

Hoh, F. (2019) Cosmic Applications of Relative Energy between Quarks in Nucleons. Journal of Modern Physics, 10, 1645-1658. doi: 10.4236/jmp.2019.1014108.