7. Keith W. Moored, Jr., Role of black holes in galaxy formation and regenerated dark matter in a continuous fusion cycle

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Volume 31: Pages 415-420, 2018

 

Role of black holes in galaxy formation and regenerated dark matter in a continuous fusion cycle

 

Keith W. Moored, Jr.a)

 

160 Sweetgum Street, Elkton, Virginia 22827, USA

 

Since the discovery of distant galaxies by Edwin Hubble in the 1920s, there has been considerable discussion on the origin and evolution of galaxies. This essay proposes that galactic formation is a direct result of supermassive black holes, which recycle all matter within the galaxy. It is a continuous cycle as the galaxy core regenerates old matter into new “dark matter.” New matter is released as relativistic jets of plasma ejected from the poles of rotating black holes. The black hole ejecta rains down upon the galaxy as a massive nonluminescent halo of newly minted dark matter. The dark matter coalesces into pure molecular hydrogen (H2), forming initiation of all new star systems, and could be considered a continuous fusion cycle.

 

Depuis la découverte des galaxies lointaines par Edwin Hubble dans les années 1920, on a beaucoup discuté de l’origine et de l’évolution des galaxies. Cet essai propose que la formation galactique résulte directement des trous noirs supermassifs, qui recyclent toute la matière de la galaxie. C'est un cycle continu car le noyau de la galaxie régénère la matière ancienne en une nouvelle matière noire. La matière nouvelle est libérée sous forme de jets de plasma relativistes éjectés des pôles des trous noirs en rotation. L'éjecta du trou noir pleut sur la galaxie sous la forme d'un halo massif non luminescent de matière noire nouvellement générée. La matière noire se combine en hydrogène moléculaire pur (H), donnant initiation de tous les nouveaux systèmes d’étoiles, et pourrait être considérée comme un cycle de fusion continu.

 

Key words: Black Holes; Milky Way; Dark Matter; Galaxy Formation.

 

Received: May 28, 2017; Accepted: September 24, 2018; Published Online: October 12, 2018

 

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