Dark matter is a mystery. There are some suspected impacts with material and dark matter in particle accelerators. But otherwise, that thing is a mystery. Dark matter could be the source of dark energy.
There is the possibility. That dark energy is similar to neutron radiation. When radiation hits dark matter. It would release extra energy in the form of radiation or wave movement.
Dark matter is the gravitational effect. That dominates the universe. There is the possibility that the imperfect annihilation caused the part of the material to turn to the thing that we are calling visible material. There is about 15% of material in the universe. That is visible to us. Last of it is the mysterious thing that interacts only by gravitation with visible material.
But when we are thinking about its form there is one thing that might explain why dark matter is not visible. If we think about the string theory the material is like a yarn ball. And annihilation reaction is the case where the strings of those yarn balls are opening.
The string theory describes the material as the ball that is formed of wave movement. There is the possibility that if the energy level of the impacting particles is not the same the annihilation would not be perfect.
So could the dark matter be the result of the imperfect annihilation? That means that material turns to energy when a particle and its anti-particle pair will impact. The case where two particles are turning to energy is true when the particles have the same mass.
But if the other yarn ball is bigger the annihilation is imperfect. The case is that if the energy level of the participants of annihilation is not symmetrical. And another participant is higher energetic than others the annihilation would not turn the entire material into energy.
When the material is turning to energy in the material-antimatter impact means the impact of particles releases only the same number of strings as the lighter particle has. If we think of those particles as the yarn balls. The particle is at a higher energy level than the other is a bigger yarn ball.
The idea is that when a particle hits its mirror particle it can turn only its mass of material to energy. So if the electron and positron are impacting and the energy level of the other participant of the annihilation is higher. That causes that there are remainings of the higher energetic particle.
So, at the beginning of the universe. There was the Big Bang. The event, that released all material and energy to the universe. Or there is a theory that at the first released wave movement. Then that wave movement turned to particle-antiparticle pairs. And after that happened the big annihilation that formed the elementary particles.
But if we are thinking about the Big Bang. And particle wave-movement duality we are facing one interesting thing. When crossing wave movements form material. They are forming the antimatter-material pairs. So that thing means that there is the possibility that the energy levels of those particle pairs were different.
And that means the annihilation between them would be imperfect. So if we think like that. There is the possibility that the asymmetry in annihilation caused the visible material and dark matter to form.
The energy asymmetry causes an effect. The particles of dark matter and visible material are not the same sizes. So we cannot see the radiation that comes from the dark matter. So could that radiation be dark energy? There is the possibility that dark energy is similar to neutron radiation. That thing would form.
When the particles of dark matter will stress with radiation. And after energy stress, those invisible particles will release their extra energy as a radiation burst. The fact is that dark matter is dominating. And should we ask like this? Is the visible material result of imperfect annihilation?
https://en.wikipedia.org/wiki/Annihilation
https://en.wikipedia.org/wiki/Big_Bang
https://en.wikipedia.org/wiki/Dark_energy
https://en.wikipedia.org/wiki/Dark_matter
https://en.wikipedia.org/wiki/Elementary_particle
https://en.wikipedia.org/wiki/String_theory
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