Wednesday, April 10, 2024

The mystery of Gamma-Ray Bursts.



"Artist's illustration showing the life of a massive star as nuclear fusion converts lighter elements into heavier ones. When fusion no longer generates enough pressure to counteract gravity, the star rapidly collapses to form a black hole. Theoretically, energy may be released during the collapse along the axis of rotation to form a GRB." (Wikipedia, Gamma-ray burst)



Can GRB form when regular material interacts with dark energy in extreme conditions near black holes? The black hole's intensive gravity its material disks, and the relativistic jet's energy can cause a situation near or inside a black hole dark energy interacts with visible material and other energy forms. 

Can GRB form when regular material interacts with dark energy in extreme conditions near black holes? The black hole's intensive gravity its material disks, and the relativistic jet's energy can cause a situation near or inside a black hole dark energy interacts with visible material and other energy forms. 

The problem with GRBs (Gamma-Ray Bursts) is that their origin is outside our galaxy. Another problem is their high energy level. The GRB seems coming from nowhere. And then it disappears without a trace. The GRB stands about less than a second. 

The GRB is one of the most powerful events in the universe. In some models, the origin of the GRB is in the cases when the blue supergiant star impacts with a black hole. That black hole turns that hot and bright star into the wire-looking structure that falls into the black hole. In some other models the GRB forms when a giant star that orbits a black hole detonates as a supernova. In that case, the shockwave sends energy impulses through the black hole's material disk. In those events, the most intensive energy faces another intensive energy. 

And is it possible that intensive energy causes interaction with dark energy? The reason why the black hole offers the possibility to see dark energy is that the black hole's gravity curves the universe. That curvature in spacetime turns space smaller. And gravity should interact with dark energy. When the energy level in that space turns high enough and waves go close enough, that thing makes it possible that dark energy can interact with other energy forms. In a black hole's event horizon, all material and wave movement turns into one entirety. The problem is does this interaction begins outside the event horizon. Or is that interaction possible only in the black hole's nucleus? 

There is one very interesting theory about GRB (Gamma-Ray Bursts). In that little-known hypothesis the GRB forms near black holes in the last moments before very high energy plasma that falls to the black hole will interact with dark energy. That thing raises its energy level to a very high. And that thing forms one of the most high-energy. And interesting phenomena in the universe. In some models the GRB forms when highly intense plasma travels through the black hole's material disk or its relativistic jet. 


https://scitechdaily.com/dark-energy-revealed-through-largest-3d-map-of-the-universe-ever-made/


https://en.wikipedia.org/wiki/Gamma-ray_burst


https://en.wikipedia.org/wiki/Lyman-alpha_forest

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