The black hole interacts with its environment. It transforms other energy forms into gravity waves. But could that thing form dark energy? Black holes include extremely dense material. And very high-power gravity field. When we think that a black hole transforms energy that falls into it into kinetic energy. We must realize that material doesn't form energy. From nothing. It just transforms energy into another form.
The term kinetic energy means a situation where the particle that travels in the energy field binds energy into itself The thing that makes that possible is that there is an electromagnetic channel behind the particle that pulls energy against it.
The particle ties part of that energy into itself. When the speed of a particle slows it releases its energy as an energy wave. But before a particle can release an energy wave its energy level must rise higher than its environment. The wavelength. That wave movement has. Is the same as the size of the particles that send those waves.
Hawking radiation is almost proven theoretical radiation that black holes can transmit. But could Hawking radiation and dark energy be the same thing? The dark energy is wave movement and somewhere must be a structure that transmits that thing. One of the suspects is black holes that can turn all energy into gravitational waves.
In some models the extremely intensive gravitation forms when fast spinning, very massive object binds energy into itself. That kinetic energy forms when that movement binds energy from around. It into itself. The black hole doesn't create energy from emptiness. It transforms other energy forms or wave movements into gravitational forms. If a black hole sends energy out from its poles it interacts just like this model. The idea is that Hawking radiation is one of the things that create black hole's relativistic jets.
If the fast spin collects energy from around it that thing means that when a black hole spins and it binds energy from around it the outcoming energy falls into that object and pushes material and particles into it. That could mean that a black hole transforms other types of energy into dark energy.
Can black holes be the source of dark energy? Some people believe that thing. The dark energy is wave movement that source is unknown. In some models, black holes or gravitational strings in black holes are the source of dark energy. The idea is that the gravitational waves can freeze above the event horizon. And that extremely fast-spinning object interacts with electromagnetic-. And other fields like Higgs field or base energy field in the universe. Those structures near the event horizon push that field away from the black hole.
That structure sends waves through the universe. That thing can be one of the possible sources of the universe. When we think about the structure and especially interactions about black holes, we must realize that black holes are much more complicated than people expect. The massive gravity field pulls material and energy. Or wave movement into a black hole. The black hole is also the only thing that can pull so-called dark matter into it. That means. Two things can interact with still hypothetical weakly interacting massive particles, WIMPs.
Those things are gravity fields and another is the hypothetical WIMP particle. But then we must realize another thing. The black hole spins very fast. And that spin requires energy. So can the black hole pull all energy from its environment because it spins so fast? That means the black hole pulls electromagnetic fields and particles in it, and then some part of the energy turns into kinetic energy. But how much of that energy that goes into a black hole turns into kinetic energy?
The black hole acts like a vacuum or an extremely low-energy object. It pulls energy fields inside it. That thing causes an idea that could the spin of that thing use so much energy that nothing cannot get out of it. That causes the idea that it's possible. The WIMP is also a very fast rotating or spinning particle. That spin also pulls energy. And then that object must transfer that energy somewhere.
The spin of a black hole could act as a connector or tensor that transforms electromagnetic energy into gravity waves and some other energy form called dark energy. The problem with the vacuum model is this: the black holes must grow endlessly if we compare them with a vacuum. The black holes must put their energy into somewhere. And that "somewhere" is material or it must send that energy somewhere.
https://www.astronomy.com/science/could-black-holes-create-dark-energy/
https://www.space.com/black-holes-general-relativity-gravity
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