The new models of the dark matter are exciting. One of them is the so-called fast-spinning particle. Which is one of the most interesting models of the hypothetical weakly interacting massive particles, WIMPs, is that those particles formed in the Big Bang event, that is not very radical thing. The model of those particles is that they are high-speed particles that get mass when their speed slows. Or, there is a model called a local, fast-spinning particle.
The idea is that the fast spin of the particle can turn the particle into a 2D plate. So how can this thing happen? When a particle closes the speed of light, it turns shorter. There is the possibility that when the particle starts to spin, it turns the movement's kinetic energy into the kinetic energy of rotation. There is the possibility that the particle just creates a vacuum around it. If a vacuum forms in its equator, it stretches that particle from its equator.
The quantum fields from the particle's spin axle press it flat. So that energy is away from the particle's horizontal or normal movement. The movement energy or kinetic energy forms when the particle moves fast. Or, a particle collects that energy from quantum fields when it travels across them. That energy can turn into a spin. And that energy that the particle uses to spin. Is away from its vertical and horizontal movement.
When we think about the sombrero model, or Higgs field model the energy ditch surrounds all particles. The particle is visible only if it rises above the edge of the energy ditch. When a particle spins very fast. It can make a very wide energy ditch. If its spin is high enough, that particle can fall below the energy ditches or pothole's edge. The main problem is why the particle that collects or binds so much energy doesn't fill.
In that case, the WIMP turns visible, because it will send wave movement. And that slows its spin's speed. Maybe, the particle aims energy that it collects from around it to the spin axle.
The particle turns to act like a thermal pump. The particle collects and conducts energy from one point. If that exists, energy turns into a so thin spike that it's hard to see. The energy spike can also push energy out of its route into the structure that seems empty.
The idea of those local fast-spinning particles is this. If a particle spins too fast it pulls the energy field against it with force that doesn't let the particle move horizontally or vertically. Or it can collect energy from around it and that makes a small vacuum or false vacuum around it. The fast spin that binds quantum field energy into kinetic energy. If that energy travels to the spin axle it turns similar to the relativistic beam. But that energy is much lower.
In that model, the WIMP is a very fast-spinning particle that turns flat like a saucer. So if the particle spins very fast it can pull quantum fields inside it. When the particle starts to spin very fast, it collects energy from its spin axle. That energy presses the particle into the saucer-shaped structure. If that thing is true. Energy that flows out of particles in the point of superstrings pushes the quantum field away. So, energy can travel to that particle between those energy strings. Energy beams that those particles send nail them into the position where they are.
https://scitechdaily.com/how-speeding-particles-froze-into-darkness-a-cosmic-plot-twist-explains-dark-matter/
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