Jacob Navia
2021-11-28 20:19:54 UTC
[[Mod. note -- Lines rewrapped -- jt]]
arXiv:1712.07962v2 [physics.gen-ph] 26 Oct 2018
ABSTRACT
Dark energy and dark matter constitute 95% of the observable Universe.
Yet the physical nature of these two phenomena remains a mystery.
Einstein suggested a long-forgotten solution: gravitationally
repulsive negative masses, which drive cosmic expansion and cannot
coalesce into light-emitting structures. However, contemporary
cosmological results are derived upon the reasonable assumption
that the Universe only contains positive masses. By reconsidering
this assumption, I have constructed a toy model which suggests that
both dark phenomena can be unified into a single negative mass
fluid. The model is a modified Lambda-CDM cosmology, and indicates
that continuously-created negative masses can resemble the cosmological
constant and can flatten the rotation curves of galaxies. The model
leads to a cyclic universe with a time-variable Hubble parameter,
potentially providing compatibility with the current tension that
is emerging in cosmological measurements. In the first three-dimensional
N-body simulations of negative mass matter in the scientific
literature, this exotic material naturally forms haloes around
galaxies that extend to several galactic radii. These haloes are
not cuspy. The proposed cosmological model is therefore able to
predict the observed distribution of dark matter in galaxies from
first principles. The model makes several testable predictions and
seems to have the potential to be consistent with observational
evidence from distant supernovae, the cosmic microwave background,
and galaxy clusters. These findings may imply that negative masses
are a real and physical aspect of our Universe, or alternatively
may imply the existence of a superseding theory that in some limit
can be modelled by effective negative masses. Both cases lead to the
surprising conclusion that the compelling puzzle of the dark Universe
may have been due to a simple sign error.
arXiv:1712.07962v2 [physics.gen-ph] 26 Oct 2018
ABSTRACT
Dark energy and dark matter constitute 95% of the observable Universe.
Yet the physical nature of these two phenomena remains a mystery.
Einstein suggested a long-forgotten solution: gravitationally
repulsive negative masses, which drive cosmic expansion and cannot
coalesce into light-emitting structures. However, contemporary
cosmological results are derived upon the reasonable assumption
that the Universe only contains positive masses. By reconsidering
this assumption, I have constructed a toy model which suggests that
both dark phenomena can be unified into a single negative mass
fluid. The model is a modified Lambda-CDM cosmology, and indicates
that continuously-created negative masses can resemble the cosmological
constant and can flatten the rotation curves of galaxies. The model
leads to a cyclic universe with a time-variable Hubble parameter,
potentially providing compatibility with the current tension that
is emerging in cosmological measurements. In the first three-dimensional
N-body simulations of negative mass matter in the scientific
literature, this exotic material naturally forms haloes around
galaxies that extend to several galactic radii. These haloes are
not cuspy. The proposed cosmological model is therefore able to
predict the observed distribution of dark matter in galaxies from
first principles. The model makes several testable predictions and
seems to have the potential to be consistent with observational
evidence from distant supernovae, the cosmic microwave background,
and galaxy clusters. These findings may imply that negative masses
are a real and physical aspect of our Universe, or alternatively
may imply the existence of a superseding theory that in some limit
can be modelled by effective negative masses. Both cases lead to the
surprising conclusion that the compelling puzzle of the dark Universe
may have been due to a simple sign error.