Author

Abstract

Spiral galaxies of the universe have been very exotic for Astrophysicists in that their actual visible mass and the mass computed based on the principles of gravity differ drastically. The difference was observed in stellar rotation curves of spiral galaxies, as the curves are mostly flat instead of declining toward the outer edge of the galaxy. Most theorists believe Dark Matter, which could be discovered in the future, fills the gap between the computed and observed masses. However, no traces of dark matter have been found even with the sophisticated electromagnetic telescopes over a long period of time. In this paper, I present a new theory explaining the mystery behind the constant orbit speed of stellar layers of galaxies. The concept of black hole micronization and distribution of the resulting tiny black holes in the baryonic matter of galaxies is explained in detail. Two distribution patterns of the micronized black holes, namely the spiral, and uniform, are explained, justifying how galaxies remain in place without any rip-off effect caused by centrifugal forces on their outer layers. The theory unveils the mystery behind the missing mass of galaxies. Introduced is a new physical parameter of superdense black holes, namely invisible divisibility number, an indicator of how finely a superdense black hole can be subdivided into tiny parts without losing its property of invisibility.

Keywords

Black holes, Micronization, Dark matter, Dark energy boundary, Invisible divisibility number.