The super supernovas were possible only in the young universe. In the young universe, the material was thicker than in the modern universe. And that means the effect of a supernova explosion was more powerful than it's today. There is the possibility that the reason that causes the super supernova was the WARP bubble that formed around those exploding stars. There is the possibility that a neutron star can form the WARP bubble if it will face electromagnetic stress, and then that stress suddenly ends.
The WARP bubble is a similar effect to the pistol shrimp makes underwater. But the power and scale of the WARP bubble are more powerful than the bubble that the pistol shrimp makes. In WARP-bubble, the electromagnetic radiation pushes electromagnetic- or quantum fields away from the object. And that thing causes the conditions where the electromagnetic vacuum surrounds that object.
So WARP bubble is one kind of cavitation. It's the electromagnetic or quantum version of the cavitation bubble. Forming the WARP bubble is theoretically a very easy thing. There is needed only the object that is created by only one type of elementary particle.
When a supernova explodes the shockwave can create a short-term WARP bubble. In that bubble, the speed of the particles can travel faster than usual. When researchers try to observe the most powerful things in the universe the black hole collisions.
There is the possibility that during those collisions the gravitation makes a shockwave or shock-gravitational wave that removes even gravitation from that extreme WARP bubble. In that case, there is the possibility that gravitation turns its opponent. But that is only a hypothesis.
Researchers made some very short-term WARP bubbles in the laboratory around elementary particles. When the particle stress with energy and the stress end particle transmits its extra energy as the energy impulse or wave motion. And that thing can create the WARP bubble.
So theoretically WARP bubble is quite an easy thing to make. At first, the researchers will put the electron cloud in the ball with an extreme vacuum. Then the chamber will press those electrons in the extremely thick form of an "electron ball".
In that ball is nothing more than electrons. Forming that ball requires that the system press electrons into the solid entirety. Which requires extremely powerful repelling magnetic fields.
Then the system will stress those electrons with energy. And that makes those electrons send the mono-frequency radiation bubble that pushes all quantum fields away.
Image: https://www.zmescience.com/space/superluminous-supernova-magnets/
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