"This figure shows the magnetic field orientation (streamlines) and direction (animated streamlines) in the central 1 kpc starburst ring of the spiral galaxy NGC 1097 using data from the radio polarimetric observations. Credit: Lopez-Rodriguez et al". (ScitechDaily, SOFIA Reveals How Magnetic Fields Help Feed a Supermassive Black Hole)
String theory determines material as the ball of 2D strings. Those strings form the yarn ball-type structure called particles. The wave-particle duality means that material can turn to string or wave movement. And the counter-reaction should also be possible. The string can turn into a particle. Only elementary particles like quarks can form from that thing.
So if we want to compare string with yarn ball we should only take the string that has the right length for creating dark matter. The idea is simple we should only determine the length of the string that forms dark matter. And then we could build dark matter quite easily. But as you know making that thing into practice requires a little bit of work.
So string theory means that. The strings that are forming material are like quantum-size lightning. And the wave-particle duality means that the material is one form of energy. Wave-particle duality means that particles have mass. And because wave movement can turn to particles. Also, the wave movement must have a mass.
Annihilation has shown that material can turn to energy. So there should be the mirror-reaction ("anti-annihilation") where wave movement turns to particles. In laboratories wave movement has turned to subatomic particle-antiparticle pairs.
Black holes are the things that are pulling wave movement in them. The point where photons are dropping in the black hole. Is called the event horizon. And behind that point, every object travels at the same speed. This thing happens with normal and supermassive black holes. When that outcoming wave movement hits the halo of the black hole.
That thing increases their energy level. And black holes will pull that energy inside it. Whenever a particle of wave movement drops in a black hole. That raises the energy level of the black hole.
The black hole is an extreme version of the zero-point energy system. When the black hole pulls energy inside it. That energy will turn it stronger. So when wave movement drops in the black hole. A similar situation is visible in laboratories where electrons or atoms are stressed with radiation their weight increases.
https://scitechdaily.com/sofia-reveals-how-magnetic-fields-help-feed-a-supermassive-black-hole/
https://en.wikipedia.org/wiki/String_theory
https://en.wikipedia.org/wiki/Wave%E2%80%93particle_duality
Image:) https://scitechdaily.com/sofia-reveals-how-magnetic-fields-help-feed-a-supermassive-black-hole/
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