Crab nebula or M-1 is one of the most well-known supernova remnants. (Wikipedia/Crab Nebula)
During the supernova explosion, the star pushes its outer core to space. In that case, the massive and powerful shockwave is starting to travel to space. When the extremely fast-moving particles are traveling in the universe they form a bubble. That is like an electromagnetic vacuum or WARP bubble. The reason for that effect is that those particles are pushing the wave movement ahead of them shorter.
And the Doppler effect of those particles will move quantum fields around the star away. When there are holes in that Doppler bubble while the distance of those particles increases- Energy starts to travel inside the electromagnetic vacuum. And that energy is pressing the nucleus of the star to the form called a Black Hole or neutron star if the mass of the star is lower than three masses of the sun.
The film is "The house in the middle". And you can see the direction where the effect is the most powerful. The vacuum causes more destruction than the pressure wall that goes out from ground zero. So there is the possibility that supernova could act similarly.
At first, the shockwave from the explosion will push the visible and dark matter away from the star. But then the electromagnetic wave movement is starting to flow to that bubble because there is less energy than outside. Energy travels always to lower energy zone.
So the idea for that model is taken from the films of a nuclear explosion. The outgoing shockwave is not so devastating as the vacuum that the nuclear explosion makes. And when we are thinking the supernovas they are like a massive nuclear explosion. When the fuel of the star is lost it starts to collapse. And during that process, gravitation pulls the star to its nucleus. And finally, the star explodes.
That explosion causes an extremely powerful shockwave that causes the vacuum behind it. And the supernovas are also sending gravitational waves. So that shockwave can cause the situation that energy starts to travel in that bubble and that outcoming energy pushes the nucleus of the star to its entirety there are only neutrons, quarks, or the black hole.
The last one has so powerful gravitational field that even light cannot escape from there. Because the escaping velocity from the black hole is higher than the speed of the light all particles from photons to neutrons are traveling at the same speed. But the question is does the positive or negative energy from the black hole after the supernova explosion?
https://en.wikipedia.org/wiki/Black_hole
https://en.wikipedia.org/wiki/Doppler_effect
https://en.wikipedia.org/wiki/Neutron_star
https://en.wikipedia.org/wiki/Supernova
Image: https://en.wikipedia.org/wiki/Crab_Nebula
https://thoughtsaboutsuperpositions.blogspot.com/
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