Gravitons, Dark Matter, and Classical Gravitation
Marcelo Samuel Berman
TL;DR
This paper proposes that gravitons have time-varying mass and radius, with their properties linked to the universe's expansion, suggesting dark matter could be composed of such gravitons and deriving related energy density.
Contribution
It introduces a novel model where gravitons possess dynamic properties and links dark matter to these variable gravitons, providing a new perspective on cosmic dark matter.
Findings
Graviton mass and radius vary inversely with the universe's scale.
Dark matter could be composed of these dynamic gravitons.
The model yields a consistent energy density for dark matter.
Abstract
We find that the quantum of gravity, the graviton, has time-varying mass (the gomidium), and radius (the somium); both vary with the inverse of R; and its frequency is given by Hubble's parameter. Dark matter can be made of such gravitons. The number of gravitons varies with R-squared . The Machian radiated power of the Universe leads us to a "correct" energy density for the gravitons as dark matter.
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