"Faint gravitational waves from the universe’s infancy may hold clues to how dark matter first formed. Credit: Shutterstock" (ScitechDaily, New Study Suggests Gravitational Waves May Have Created Dark Matter)
If dark matter is whirling in quantum fields. Because. Of. Impacting gravity waves. That means dark matter is a virtual matter. The idea is that. Impacting gravitational. Or gravity fields form similar whirls. In their impact. Point as air flows.
The idea is that whirls in quantum fields can act like virtual particles. Those whirls form around the lower energy quantum field. Those whirls put energy or quantum field into motion. They act. In the same way as tornadoes and hurricanes act in the atmosphere. Moving structures bind energy, and that makes those structures lower energy than their environment. Those structures transport energy away from the point where they are. This makes those whirls or their wall seem cold. But. The energy or wave movement can travel into that whirl. So, only the wall of the whirl is the structure that binds energy. And that structure forms more whirls in the impact area.
Could dark matter simply be whirl in quantum fields? If there is a whirl in the quantum field, that whirl can theoretically form the “Kugelblitz black hole”. Or a black hole that forms because of radiation. There is a possibility that if something emits a very high-energy radiation. Into a single photon. That thing can turn a photon into a black hole. The idea is that when that photon receives energy. Sooner or later, it releases it. When a photon sends energy. It forms a quantum void. Then, outside energy starts to fill that bubble. If that bubble is fully symmetrical, it pumps energy to that photon.
A photon stores that energy into its spinning movement. And then. If a photon cannot transport energy out from it through the whirl, it turns into a black hole. The mass and energy in the photon rise until it can release that energy. The speed of the spin accelerates until the photon can release that energy.
The falling quantum field turns that photon into a black hole if it is collected from an area that is large enough that the energy level in the photon rises so high that it turns into a black hole. When that happens. The photon must form so large whirls around it. It cannot remove its energy through that whirl. The spinning speed of the photon accelerates. When that whirl transports energy into it.
So could the whirl in the quantum field explain dark matter? Theoretically, this kind of quantum spin can turn into a black hole in a similar way as a photon in the theoretical “Kugelblitz” black hole model.
In this text, I will repeat the word “whirl”. The idea is that the dark matter could be the whirl in the quantum field. When a quantum field moves, it forms a series of whirls in the impact point. This means all particles can be surrounded by whirls. In the same way, when quantum fields impact other quantum fields. Their form whirls in the impact layer. This means that. Also, macro-scale quantum fields form whirls at the point. There those. Traveling quantum fields touch other quantum fields. In some cases, the whirl can be separated from the point where it is born.
This thing happens. In the rivers, so if we transfer that model to the quantum environment. The whirl around the gravitational center can also be separated and form the traveling whirl that acts like a gravitational center or particle. We can think that the high-power energy strike hits the particle. That energy spins a particle, and that forms the quantum tornado. This quantum tornado can form a low-energy point. That accumulates quantum fields that try to fill it.
The gravitational centers are surrounded by whirls. The whirls are matter that travels to the center of gravity. Whirl is never alone. On the borderline of a whirl, that thing forms smaller whirls. So, if we think that gravitational fields are forming quantum whirls, then that thing can form a phenomenon that looks like material.
Jupiter’s clouds. The idea is that impacting quantum fields, including gravity, can form similar whirls in the impact point. There, the traveling field impacts and speed of those impacting fields, or their direction is opposite. We can see how impact points between clouds form whirls.
And we can transform that model into the quantum fields, including gravity. When two gravity fields impact, they form similar whirls. And those whirls pack quantum fields into them. So, if that whirl model is real, those whirls in the quantum field can pack matter or energy into them.
When we consider cases, there are quantum fields that impact and form whirls. The walls of those quantum whirls are pulling energy out from the middle of the whirls. And that causes a situation where quantum fields travel to those quantum whirls. When a gravitational wave travels. All over the universe, it also has an impact point.
When we look at an image of Jupiter’s clouds, we see whirls. In the same way, gravitational waves can form whirls. The whirls in the impact layer of the quantum fields. If that kind of quantum whirls. Surrounding the impact layer of the universe, which explains why we cannot see other universes. Also, we can think. The whirl around the particles is forming a series of whirls in the quantum field. So, that means quantum strings can also be like extremely thin quantum tornadoes. The spinning structure binds quantum fields from their environment. And that can make those structures act. Like they are material.
https://en.wikipedia.org/wiki/Kugelblitz_(astrophysics)
