Black Holes, Dark Matter, and Information.

    Black Holes, Dark Matter, and Information. 

"Artist’s conception of a supermassive black hole, billions of times more massive than the sun, like those found at the centers of galaxies. The black hole’s rapid spin and powerful magnetic fields can launch enormous jets of plasma into space, a process that could potentially generate the same results as human-made supercolliders. Credit: Roberto Molar Candanosa/Johns Hopkins University" (ScitechDaily, Scientists Eye Black Holes as Cosmic Supercolliders in the Hunt for Dark Matter)

At the beginning of time, before our universe, only a G-field, or gravitational field, existed. Then, there formed some kind of whirls in that G-field. Those hypothetical whirls were gravitons. The idea is that the hypothetical graviton particle is a stick-shaped structure, a particle that forms from the quantum field. 

The form of the hypothetical graviton particle could be like tornado. So are the graviton and another hypothetical particle, axion the same thing? The idea is that we cannot see axions because their spin is so fast that it creates fields around them in the shape that looks a little bit like a black hole. 

The idea is that the graviton is so smooth that it cannot take outside fields inside it. And then it starts to transport those fields into its spin axle. So could that thing also explain dark energy? Graviton pulls energy from around it. That particle binds that energy inside in the form of kinetic energy and then aims it to the spin axle. That particle looks like a black hole. The particle collects energy until its energy level turns so high that energy can start to travel outside the particle or quantum field that surrounds it. 

When the mass or kinetic energy of a particle grows, it pulls material and quantum fields from larger areas into it. That thing locks black holes into their form. If that whirl vanishes black hole erupts immediately. That whirl denies the energy escaping from the particle’s or objects' equator. And that is the thing that creates the black hole’s relativistic jet. 

Black holes pull information inside them. Or if we think carefully, black hole rolls information from its environment around its spin axle. That means there is possibility to release that information. There is a question of whether information exists without a physical form. So if we think that information is wave movement, we must ask can information travel without superstrings or does it need superstring for existence. Information will be stored in quantum fields and particles as in curves. That should not be erased even in black holes. Those curves, or “mountains” and “valleys” can turn so low that they are hard to detect. 

But theoretically is possible to restore, or recalculate information that black hole stored. When black hole pulls quantum field, and information that quantum field carries inside it, we can think that the process is similar when something rolls paper around axle. The paper forms the roll, and it's possible to roll that paper from the axle. This is the thing. That makes the black hole collisions interesting. There is a possibility that during those events, the black hole can pull information out from another black hole. And possible somday we could decode that information. 

Researchers uncovered a hidden symphony in a black hole hidden vibrations. And that might help them to read information. That the black hole stored. 

"Black holes don’t just warp space, they sing. And now, for the first time, we’ve figured out what their cosmic echoes really sound like. Credit: Shutterstock" (ScitechDaily, Scientists Uncover the Spiraling Symphony Hidden in Black Hole Vibrations)

Another interesting thing in the universe are very old, large black holes. The biggest black holes formed in the early universe. Those monsters lost their mass after that. The reason for this is the expansion of the universe. Or, otherwise, weakening quantum fields and decreasing the number of particles. This thing tells. The universe expands. Or does it? There is another explanation for that thing. This very radical theory goes like this: the black hole is a more common phenomenon in the universe than we expected. And the black holes that are “sleeping” simply pull particles and quantum fields inside them. If those black holes exist between galaxies, they are very hard to detect. 

If all electromagnetic fields and particles are formed after the Big Bang, or the beginning of the universe, that means that when black holes pull those fields and particles inside them, there are fewer particles and fields left in the universe. So, can we see that effect as an expansion of the universe? There is a possibility that only the G-field existed before the Big Bang. And that field formed all other quantum fields. But we know that black holes are massive objects. There are black holes between galaxies. And black holes can collact particles to around them. 

That means that the dark matter should interact with black holes. And maybe that thing helps to find things like axions. Axions are hypothetical dark matter particles. Sometimes is introduced that axions are particles that spin very fast. That thing means that the axion can be like a stick or some kind of rugby ball. So, that means that. Maybe near black holes, regular particles could turn into axions. When a particle's spin accelerates, it binds energy into it in the form of kinetic energy. During that process, the outside quantum fields travel to that particle. 

And press it into a smaller size. If we think that particle is a whisk-shaped superstring stucture when outcoming quantum field pushes particle into a smaller size, those superstrings turn closer to each other. If those superstrings turn close enough to each oher. That turns the particle very smooth. And that means the quantum fields travel around the particle. The quantum fields that travel to the particle’s poles will start to travel out from the particle along its spin axis. That thing means that the particle starts stretching. 

And then it starts to transport the quantum field out from its spin axle. If some stick-shaped, fast-spinning particles form black holes, that means that the black hole will not pull things inside it. It just accelerates and aims fields form around it. That thing explains the black hole relativistic jet. That causes the idea. That maybe hypothetical gravitons are axions. Maybe. The graviton is like a tornado in the G-field.  As I wrote at the beginning of this text. 

https://scitechdaily.com/mysterious-radio-signals-reveal-whats-hiding-between-galaxies/

https://scitechdaily.com/scientists-eye-black-holes-as-cosmic-supercolliders-in-the-hunt-for-dark-matter/

https://scitechdaily.com/scientists-uncover-the-spiraling-symphony-hidden-in-black-hole-vibrations/

https://scitechdaily.com/webb-telescope-spots-oldest-black-hole-shattering-cosmic-records/