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Supernovas are the most violent events in the universe.



Image 1) 


Supernovas are the most violent events in the universe. They are a little bit like extreme versions of vacuum bombs. In a couple of seconds, those stars are forming so much energy that they formed in their entire life. The thing that makes those events so interesting is the energy load that they create during that violent thing. Supernovas can be the answer for the thing called warp bubbles. And why the thing might be like that? When a supernova explosion happens the star sends a shockwave through the universe. 

The forming of that shockwave is very interesting. In the middle of the star is the point where is zero gravitation. Gravitation in the stars behaves like in all balls and just in the center of the ball-shaped object is the zero gravitational bubble. When the star starts to collapse it will press against that bubble. The material will drop at that point where is no gravitation. And then the superstrings or the energy load of that super-hot plasma will just push that plasma to the core of the supernova. So the supernova explosion starts when the super-hot plasma will reflect away from the star's nucleus. 

Or just before the explosion happens the star starts to collapse because of its gravitation. The shockwave starts to travel through the star. And ahead it will travel particles that are causing electromagnetic vacuum channels after them. Those channels pull the shockwave after them and that thing can form the electromagnetic vacuum in the middle of that star. So the hypothetical tachyon particles can drop in that electromagnetic vacuum. That thing causes the energy level at that point to turn hyper-high. 



Credit: https://scitechdaily.com/extraordinary-supernova-reveals-secrets-to-astronomers-a-sort-of-time-machine/

Image 2) The diagram of the supernova explosion. 

There is the possibility that at that point there is forming a so-called hollow black hole around the star. That hollow black hole pulls material and energy from inside it. And then the energy starts to travel from the hollow singularity to the quantum vacuum. That thing causes the destructive impact of wave motion. 

In that case, the supernova acts like an extremely powerful vacuum explosion. The vacuum bomb forms a hollow hydrocarbon ball and then that hydrocarbon will ignite. The system pulls all gas from that bubble. And the supernova acts similar way. 

When the shockwave travels in that star. There is nuclear fusion ahead of it. Then there is the quantum vacuum in that bubble and that vacuum pulls material and wave motion into it. The high power energy load also forms antimatter that increases the power of the explosion. 

If the mass of the exploding star is high enough that thing forms a black hole. If the mass is lower the black hole would not form because the warp bubble around that thing expands too fast. And that means the black hole will fray. The requirement for forming the black hole is that the expansion of the event horizon is higher than the expansion of the warp bubble. But if the black hole or its event horizon cannot reach the edge of the warp bubble the black hole will not sustain. 

If the mass of the star is very high that means we cannot see the supernova explosion. The expanding event horizon will pull the entire material in it before the shockwave can get out from the star. So if the expanding event horizon will catch the shockwave the star just vanishes. 


By the way...


There has once introduced an idea to form the quantum vacuum by using a ball-shaped structure. The antimatter explosion will make inside and outside the core of the ball. And that thing makes it possible to create the ball-shaped hollow singularity. 

The ball-shaped singularity will pull the quantum fields away from itself. And then the quantum vacuum inside that thing will pull the energy from the black hole around it inside that vacuum. 


https://scitechdaily.com/new-clues-to-understanding-the-mysterious-origin-of-supernovae/


https://scitechdaily.com/extraordinary-supernova-reveals-secrets-to-astronomers-a-sort-of-time-machine/


Image 1) https://scitechdaily.com/new-clues-to-understanding-the-mysterious-origin-of-supernovae/


Image 2) https://scitechdaily.com/extraordinary-supernova-reveals-secrets-to-astronomers-a-sort-of-time-machine/


https://miraclesofthequantumworld.blogspot.com/

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