TITLE:
Dark Particles Answer Dark Energy
AUTHORS:
John L. Haller Jr.
KEYWORDS:
Dark Particle; Dark Energy; Black Hole; Black-Body Radiation; Diffusion; Brownian Motion; Langevin Equation; Dark Matter
JOURNAL NAME:
Journal of Modern Physics,
Vol.4 No.7A,
July
12,
2013
ABSTRACT:
This paper argues that a hypothetical “dark” particle (a black hole
with the reduced Planck mass and arbitrary temperature) gives a simple
explanation to the open question of dark energy and has a relic density of only
17% more than the commonly accepted value. By considering an additional near-horizon
boundary of the black hole, set by its quantum length, the black hole can
obtain an arbitrary temperature. Black-body radiation is still present and fits
as the source of the Universe’s missing energy. Support for this hypothesis is
offered by showing that a stationary solution to the black hole’s length scale
is the same if derived from a quantum analysis in continuous time, a quantum
analysis in discrete time, or a general relativistic analysis.