Do black holes have hair or not?

Image: Quasar and its jet. 

All black holes might not be similar. 

The hair of the black holes is some kind of wormhole. That brings information out of the black hole. There is the possibility that black holes in the hair are forming when near the central black hole is forming a parasite black hole. And that fast-vaporizing black hole steals the particle or wave movement from the central black hole before it vaporizes. Then that vaporization releases those stolen particles and wave movement to space. So the Hawking radiation is forming through other smaller black holes. 

First, I must say that there is the possibility that all black holes are not similar. The second thing is. Black holes are extremely complicated things and when we are talking about things like fuzzballs there is a possibility that some black holes are fuzzballs and some are not. In the same way, we can say that there is the possibility that some black holes might have hair and some have no hair. And there is also possible that black holes might have hair only at their poles. 

 So as I just wrote, Some black holes might have hair, and some other black holes might not have hair. And black holes may have no hair all the time. And at this point, somebody might ask, what is the hair of a black hole? The hair of the black hole is the channel where the radiation called Hawking radiation comes out from the black hole. 

That thing is interesting because even light cannot escape inside the event horizon. That is the point where escaping velocity reaches the speed of light. And that is the point where the outside observer sees the object last time when it drops into the black hole. 

So what forms the hair? The hair of the black hole can form because the energy level inside the material disk around it is extremely high energy. That thing can form miniature black holes around the central black hole. Those miniature black holes are pulling the wave movement or particles around the central black hole in them. The parasite black hole will also stretch the quantum field. That surrounds the event horizon to it. When the miniature black hole impacts the larger black hole it sends the energy wave around its quantum field. 

There is the possibility that those satellite black holes pull objects back from the event horizon of the central black hole. That thing is possible when the small satellite black hole touches the event horizon of the central black hole. And its gravitation turns more massive than the gravitational field just below the event horizon of the central black hole. 

Or there is the possibility that there is forming an energy channel or extremely short-term wormhole between those small parasite black holes and the central black hole. The parasite black hole will sooner or later fall into the central black hole. But the small black holes are vaporizing very soon. 

And those parasite black holes are pulling wave movement and particles black from the central black hole. So the hair or outcoming radiation called Hawking radiation forms when small black holes are stealing particles and wave movement from the central black hole. 

So when the small parasite black hole is falling into the larger black hole it can push particles and wave movement from inside the event horizon to it. And if that parasite black hole vaporizes just before it will hit the event horizon of the central black hole it will release those stolen particles to space. 

The thing is that forming the hair of the black hole requires that the material is falling into the black hole. The parasite black holes can form only in the transition disk. And that thing means that the transition disk's energy level must be high enough that the parasite black holes can form. 

But do you know what means that the black hole might have plaints? 

The theory that some black holes might have hair only at their poles is taken from the jets of quasars. There is a possibility that the forming energy channel between the quasars black hole and some other black hole is starting to form. And if that energy bridge turns powerful enough that can form the wormhole between those black holes. Also, some galaxies have similar jets. 

So the black hole forms the wormhole by using its twisted hair to aim the energy and gravitational waves. If at the poles of black holes is a large number of satellite black holes. That thing will aim at the gravitational waves around the universe. 

The mass of the black hole is not stable. When there is lots of material near it. The black hole will reach a higher energy level. And when the mass of falling material is lower. That thing decreases the energy level of the black hole. 

There are radiation pikes at both of the poles of the black hole. That radiation pushes particles away. So there is the possibility that there are lots of high-energy particles and parasite black holes in those radiation pikes. Those miniature black holes are acting also as gravitational slings. And that thing causes the jet of the quasars and galaxies. 

At this point, I must say that there might be multiple things that are causing those jets. Including the ring of the opposite polar ions that are surrounding that radiation pike. That ion cloud acts like ion cannon. When the particle is accelerating to an extremely high speed near the black hole. That ion cloud pulls it up. And that thing causes the effect where the opposite pole ions will start to follow those ions. 

If the parasite black holes are hovering at the gamma- and X-ray pike. Their distance to the central black hole is chancing. And the parasite black holes are acting like a yoyo. That thing is possible at least at the energy level. When the distance between that central black hole or energy level in radiation pika and transition disk is chancing. That thing affects all particles and objects in that area. 

The parasite black holes are sending radiation.  Those things are acting like all other black holes. Except they are orbiting the central black hole. Also, the energy level of those parasite black holes. And other particles changes. They are oscillating and send the radiation. 

Same way. When the power of the gamma- and X-ray radiation is changing. The parasite black holes are oscillating. And the level of the radiation of the central black hole determines how fast those parasite black holes are vaporizing. 

The idea for the plaints is that the area that is at the highest energy level is at the poles of the black hole. All ionic particles are traveling to those areas where they impact each other. That thing forms the gamma-or x-ray radiation pikes at the poles of the black hole. 

So most of the parasite black holes are forming in that area. And if they are forming the wormholes to the massive central black holes. There is possible that the wormholes of the miniature black holes are starting to turn together. And then they are starting to oscillate and send wave movement around the universe. When that wave movement faces another black hole which is a similar size. That thing forms the wormholes between those two black holes. 

Image 2:https://astronomy.com/magazine/2002/12/quasar-history

See also:

Black holes

Fuzzball-theory

Hawking radiation

Singularity

Wormhole

https://miraclesofthequantumworld.blogspot.com/

Is gluon the mysterious graviton?

   

So are gluon, photon and graviton the same particle? That means the graviton would be a very well-known particle. That has some ability that researchers have not noticed yet. 

If we think that gravitation is an interaction there is forming the energy channel between objects there is the possibility that gravitational interaction requires some kind of resonance. So if we think that gravitation is the interaction that affects every single particle in the universe we might think that graviton is some well-known particle. 

And that thing makes me think, that could the graviton be the usual thing? That usual thing should be involving almost all other particles. And one of the most usual particles in the universe is gluons. Gluons are locking quarks to protons and neutrons. 

So if we think that we can split photons into two pieces. That makes it possible that photon is two particles. Some energy bridge would connect those particles. If we use the terms that are meant for operating at the molecular world there is lower energy pressure in that channel than in other places. 

 Or is there a small particle between those photons? And of course, there is the possibility that the photon itself is gluon and graviton. That means it has a form that we just don't know yet.  

There is introduced an idea that there is formed synthetic gravitational waves. By orbiting protons in the particle accelerator. If the speed of protons or some heavier ions would be high enough. That thing makes it possible to create synthetic gravitational waves. The idea is that the quarks and gluons are turning in a straight line when the speed of the proton is high enough. 

Maybe that thing can answer to questions, "are gluon and graviton the same thing"? There is the theory that gluon is the mythical graviton. There is an idea that the gluons are making an electromagnetic vacuum behind them. And those extremely small WARP bubbles will pull quarks to one entirety. 

So the source of the gravitational waves would be in the movement of those gluons. But also the spin of the protons can send the quantum gravitation. The idea about the pushing gravitation is in the idea that there is an electromagnetic vacuum near the object. 

And that vacuum or electromagnetic low pressure will cause the outcoming radiation to push objects to the gravitational center. So there is the channel where is lower electromagnetic pressure between objects. And that means the gravitational energy travels in the border of that electromagnetic channel that pushes objects together. 

The thing is that the energy travels from the gravitational center to the orbiting object. That object will throw the gravitational wave away from it. And that thing makes one very interesting thought in my mind. If we think that gravitational waves are radiation. And if the gravitational interaction requires some kind of resonance. That makes one interesting question: is material where the gravitation has no effect exists? 

https://scitechdaily.com/split-photons-new-research-predicts-the-existence-of-a-previously-unimaginable-particle/

https://scitechdaily.com/split-photons-new-research-predicts-the-existence-of-a-previously-unimaginable-particle/

https://en.wikipedia.org/wiki/Graviton

https://en.wikipedia.org/wiki/Photon

https://en.wikipedia.org/wiki/Quark

https://thoughtsaboutsuperpositions.blogspot.com/

The event horizon is the point where escaping velocity turns higher than the speed of light.

At the beginning of this text, I must say that black hole journeys are far in the future. And nobody ever visited black holes. So the event horizon is the last point where we can make observations from particles. 

There is one place in the universe where an object can travel faster than the speed of light. That place is a black hole. Behind the event horizon, all particles are traveling at the same speed. And that means the photons are traveling at the same speed as other particles travel to the nucleus of the black hole. The reason why the speed of the particle is turning higher than in the regular universe is that there is no Doppler effect behind the event horizon. 

The massive gravitation will pull that wave of photons and wave movement to straight. And that thing makes it possible that all particles can move at the same speed. So if somebody wants to dive into the black hole. That person should accelerate to the speed that is as close to the speed of light as possible. Then the black hole must not be surrounded by material. That thing removes the hyper-energetic halo around it. That halo would erase the astronaut and his spacecraft. So what is inside the black hole? 

The black hole is the thing where even the light cannot escape. The fact is that the event horizon is the final point where outsiders can see the object. But there is another thing that we must realize. The event horizon is not coming suddenly. It's a series of so-called brane layers where the gravitation and the escaping velocity will increase until even photons cannot escape there. So the shorting space around the black hole causes the object will go past the brane layer more often than in other places in the universe. 

The brane layer is the energy or gravitational level around the black hole. When the object goes through a certain brane layer it reaches a certain energy level. That means the black hole would make the particle travel straight to the fourth dimension. The white hole is the point where the material returns from the fourth dimension. 

So can we travel through a black hole? That requires that we must keep the spacecraft in one piece. Or we must return the information in the form of spacecraft. But seriously. The thing, that some unmanned probe can travel through the event horizon doesn't mean that a living organism can make the same thing. The thing that erases the material is the gas whirl around the black hole. 

Gravitation glue can deny that black holes are ripping material in pieces. 

Does the black hole rip the objects into pieces? There is created an idea that there is a magnet inside the spacecraft. That magnet will pull material together. But in the case of a black hole. There is needed another black hole inside the spacecraft. In some very futuristic visions. In the spacecraft's structure is the neutron or graphene network. The system forms the miniature black holes in that structure. 

The idea is similar to Wigner crystals. The electrons or protons are captured in that structure. And then there is connected energy. That energy turns those particles into black holes. They are acting as the gravitational glue. But today technology is not at the level that allows creating that kind of craft. 

In some futuristic visions, the system creates another black hole inside the spacecraft that will pull material together. But that thing is far in the future. Maybe there are nanotubes in the futuristic spacecraft. The system creates a series of nano-size black holes just at the right moment. The gravitation of those black holes would pull the structure together. 

The fact is that it cannot break photons or quarks and wave movement. If we will cut the information into small pieces as possible they can travel through the black hole. But even if some quark can travel through the event horizon that is not the same as the molecules can travel through it. If information will cut into the smallest possible parts. 

That means the quantum computer can communicate by using black holes. The states of the qubits remain even if the photon or maybe neutrino travels through the event horizon. Returning that information requires knowing how much energy will transfer to the qubit. And then that energy level can remove in the measurements. That allows returning the states of the qubit. 

But if we would send something more complicated to the black hole we are facing one thing. Information can travel through the event horizon. But can we return it to the same form that it was before it went to trip? The fact is that information itself cannot be destroyed. 

Photons, electrons, and wave movement that form material remain after the protons and neutrons are destroyed. The situation is like if we will burn newspaper. The form of paper turns to ash. 

So the information is not gone. The paper and ink still exist. Information just turns to form that it cannot reorder in the form, that it was before it broke. That means the wave movement that formed material still exists. 

When the object is closing to the black hole. It will reach many points where a certain size of the object cannot escape. At the first molecules, then atoms, separately protons and neutrons cannot escape from the gravitational field. And finally, the black hole will capture electrons and photons along with wave movement inside it. The black hole would look like an onion. Every layer in that onion is the certain energy state of the space and material. That means the black hole is the miniature universe in the universe. 

The point where a certain object cannot escape depends on the mass of that object. But when the final edge of the event horizon is reached happens one thing. The Doppler wave that is denying crossing the cosmic speed limit turns straight. That thing makes it possible that every object inside the black hole will reach the speed of photons. But can the information return from the black hole? The fact is that photons and wave movement can return. But can some more complicated go through the black hole? The answer is we don't know. 

Images: Pinterst

https://thoughtsaboutsuperpositions.blogspot.com/