The black holes, and what is their relationship with eternity?

Could the Schwinger effect in black holes be the source of mysterious Hawking radiation? 

Is there some outcoming radiation that comes out from the black hole? And could that thing turn the event horizon invisible? Could that outcoming radiation be the thing called "dark energy"? If that strange wave motion is coming from the fourth dimension. That radiation is invisible to detect. There is the possibility that dark energy tunnels through superstrings that are forming all elementary particles. 

There is a theory that black holes are particles. That is in the fourth dimension. The idea is that when a particle jumps to the fourth dimension or otherways saying energy level that means the fourth dimension. It leaves a hole behind it. That hole is the channel where the radiation from that fourth dimension comes from that super-high energy level. 

And the reason why we cannot see the singularity is that there is some kind of counter-radiation or wave motion that will pull energy from incoming radiation. In that case, the gravitational waves or Hawking radiation that impacts other wave motion near the event horizon acts like a counter-wave from the beach. 

The counter wave pulls energy out from the impacting radiation. So the radiation that comes from the black hole must be very high-frequency. But the height of those hypothetical waves is very low. And that means the effect of that radiation could be visible only extremely close to the event horizon. 

So if that Hawking's radiation is coming inside the black hole there is one reason that could explain this thing. And that is this. There is some kind of Schwinger effect in black holes. The rotation speed of the black hole is extremely fast. And that can cause the Schwinger effect. Where wave motion turns particle-antiparticle pairs. Could there be some kind of Schwinger effect in the black hole?

The universe is material. And the material is one form of energy. Energy is the thing that determines how long the universe can exist as a material entirety. 

The dimension is the energy level where particles can interact with each other. We are living in the third dimension. And the thing that separates the fourth and third dimensions is the energy level. 

The energy level of the four-dimensional particle is so high that it cannot interact with three-dimensional particles. But the fact is that time will travel in the same direction in the fourth dimension as it travels in three-dimensional space. 

Term time dilation means that time moves slower on the particles that travel at a very high speed. Or another thing that can cause time dilation is the energy pumping to the particle. 

So if we will think that the particles are hairy things and the hair is forming when the superstrings erupt from particles. That thing is called quantum vaporization. The reason for that vaporization is the expansion of the universe. 

All energy and particles are involved in the universe. And when the size of the universe increases. That causes the material and energy relation with space decreases. That thing is called "Cosmic inflation". 

Cosmic inflation causes that material never to reach the minimum energy level that is the same as space. And that thing means the vaporization of the material accelerates all the time. Quantum vaporization or "vaporization" means that the material sends wave motion. And that wave motion is the thing that decreases the mass of the particle. 

Energy cannot form from emptiness. Particle turns to wave motion because the material is one form of energy. So when energy or wave motion targets the particle. It gets the lost energy back. And that energy increases the mass of the particle. 

But the problem is that when we return the particle's "youth" the energy level of the universe decreases. And that means the energy difference between the particle and its environment increases. So when the energy pump to the particle ends. It starts to release energy faster. 

And the wave motion that is left from the particle can pull a warp bubble or electromagnetic vacuum around it. That causes a situation. Where the wave motion that travels out from the particle rips it to superstrings. 

The thing that destroys the particle is not the energy pump. The end of the energy pump and too fast energy movement out from particles is the thing that destroys single particles. 

Dimension is energy level. If energy levels between two objects are too far from each other those particles cannot interact. 

The energy level is the thing that determines the third and fourth dimensions. The dimension that is at a higher energy level is always smaller than the previous one that is at a lower energy level. But the upper (higher energy) dimensions are denser than the lower energy dimensions. The energy travels from higher energy level dimensions to lower energy level dimensions. And that energy flow is the thing why it's so hard to reach those invisible dimensions. 

When the particle jumps to the fourth dimension. Its energy level rises very high. And that thing makes it possible that particles can keep their particle form longer than the universe exists. When the particle's energy level turns high enough, we could say that it jumps to the fourth dimension. It loses its ability to interact with other particles. 

Sooner or later that particle will lose so much energy that it returns to the third dimension. But if some particle makes that thing it keeps its particle form longer than the universe. The reason for that is that the energy level of that particle is so high, that energy in it will remain longer than in other particles. 

And when we are thinking about cosmic inflation and the aging of particles. We can say that this particle in a hyper-high energy level follows other particles in the aging process. That thing is called time dilation. There is a possibility to restore or return the youth of the particle simply by stressing them with electromagnetic radiation. 

Can some particle someday reach eternity?

That thing depends on how we describe eternity. If we say that the universe's lifetime is the limit of the existence of material. We must remember that information never vanishes. And the reason for that is when the wave motion reaches its final and smallest form. The universe reaches a stable form. The energy level of the system reaches its minimum level. 

For the first time in its history, the form of the material doesn't change any more. So that means the superstrings that formed the universe after the Big Bang cannot split into smaller parts. But when the material reaches its final form. Greek philosophers called that form the "Atomos" form. 

Material cannot take any smaller or lower energy form. But the fact is that those strings still exist. And the existence of the universe never ends. 

But could some particles keep their particle form forever? We can say that the end of the universe is the end of material existence as particles. When all particles are turned to wave motion that thing could describe the end of the universe. But there is a possibility to create a particle that lives longer than the universe. 

Time is one form of energy. And the thing that causes that material to turn to wave motion is the end of energy. When energy ends that thing causes a situation where the superstring that forms the particle turns open. 

But there is a possibility that the particle energy level is so high, that its energy level is so high that energy cannot release during the lifetime of the universe. The energy level of this sub-atomic particle would be so high that we cannot see it. 

Or the quantum field of that particle in the hyper-high energy level just pushes other wave motion around it. And that outcoming radiation denies that particle's ability to interact. The radiation just travels around the particle. And that radiation makes it hard to detect. That wave motion will just make that particle act like some kind of stealth material. 

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

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

https://artificialintelligenceandindividuals.blogspot.com/

Could dark energy be the pushing and dark matter pulling gravitational effect?

The dark interaction and antigravitation. 

The standing gravitation wave that makes impacting gravitational waves reflect can be the key to antigravitation or pushing gravitational effect. 

Are dark matter and dark energy two-way interactions of gravitation? So could dark energy be antigravitation and dark matter be gravitation in the form we know it? If that thing is true that means gravitation has similar two-way interaction. 

All other fundamental forces have two-way interaction and they push and pull particles. So why the dark energy cannot be the hypothetical antigravitation or pushing gravitation? And dark matter could be the regular pulling gravitation. 

*Dark energy is energy that rips the universe into pieces. 

*Dark matter is the mysterious gravitational effect that keeps dwarf galaxies in one structure. Nobody has seen dark matter. And the only known interaction between dark matter and visible matter is gravitation. 

*So the name of the dark matter should be dark gravitation. Nobody even knows if dark matter existed. 

*Or could the reason for that unknown effect be the virtual particles? And one virtual particle type is a standing gravitational wave. 

*If a standing gravitational wave is possible, that thing could make antigravitation possible. 

*The idea is that the energy level of that standing gravitational wave is higher than impacting gravitational waves that cause gravitational reflection. 

*And maybe that thing makes antigravitation or pushing gravitational effect possible. 

*So, could dark energy and dark matter be antigravitation and gravitation? 

Dark energy is a strange force that rips the universe into pieces. And dark matter is the gravitational effect that pushes particles away from each other. Dark energy and dark matter are forming a thing that we can call "dark interaction". 

So dark energy is pushing. And dark matter or dark gravitation is pulling particles together. Does that mean there is a question are they part of the same force? In some of the most fundamental speculations, dark energy and dark matter is the gravitation that is turned upside down. Is it possible? Can gravitation turn its mirror effect? 

Gravitation is radiation or wave motion. So gravitation can put travel to focus like all other radiation. And there is a possibility that while the gravitation travels across that focus. They are turning to their mirror waves. And that thing makes it possible that somewhere in the universe the gravitational effect turns to the opposite. 

There is a possibility. That some kind of gravitational loop or gravitational lensing is turning the gravitation to its mirror effect. In that kind of theoretical situation, coherent gravitational waves are traveling through the gravitational lens. And that lens forms the focus where gravitational waves are turning to the opposite. But could that effect cause that gravitation turns to its opposite force? 

While gravitational waves are traveling in space they will turn very weak. And if another side of the gravitational wave is at a higher energy level. That thing means that the gravitational wave can turn upside down. 

When quantum entanglement breaks. And the particles are starting to travel in different directions. We are always forgetting to explain how that thing happens. Before quantum entanglement is formed the particles must take superposition. That means that two elementary particles start to oscillate with the same frequency. 

Then if the energy level of those particles is different. There is forming an energy bridge between them. When the energy level of those particles is turning to the same level that pushes those particles away. 

When the quantum entanglement reaches energy stability. That breaks the structure. Wave motion that source is in both particles impacting in that energy channel it forms the virtual particle or energy bubble. And then the energy that reflects from that virtual particle pushes those particles at both ends of the quantum entanglement away. 

https://astronomyandtechnology.blogspot.com/

Quantum entanglement and the expansion of the universe

There is a small possibility that the universe's expansion is the reason for the cloud of extremely small particles that are superpositioned and entangled. Those particles could be gravitons, the hypothetical transportation particles of gravitation. There is a possibility that the graviton involves all particles that have mass. 

If the size and energy level of those yet unknown particles are precise same the quantum entanglement that forms between them is starting to push those particles away from each other. 

If that thing is true. That hypothetical extremely small, yet unknown particle is in every single quark that thing explains the dark energy, and the reason why we cannot observe that energy is simple. Dark energy is virtual energy. 

*When we research material and its smallest particles. We are facing one interesting thing. There must be the "final particle" the form or the thing that is involved in all particles. 

*If there is quantum entanglement between those particles there is a possibility that the energy levels of those particles are identical. And that destroys quantum entanglement. That thing pushes those particles away from each other. 

*If the energy level of those particles is different the quantum entanglement is stable. But if that particle is an inside quark. That thing causes the information that travels in quantum entanglement blows particles from each other like the wind. 

That thing can be the superstring. Or that thin could be some kind of extremely small black hole. If the energy levels of those particles are at the same level. And there is forming quantum entanglement between those particles they can push other particles out from each other. 

Because those hypothetical particles are far smaller than quarks or maybe they are smaller than gluons that cause the situation where the affected area of that quantum entanglement is so small that researchers cannot detect it. And the quantum gravitation between quarks and leptons covers the existence of those energy channels. 

But even if the quantum entanglements between those particles are stable it requires that the energy level between the ends of that thing is not the same. That thing can cause an effect where information blows those particles away from each other. The information that travels in this hypothetical quantum entanglement acts like the wind that is blowing the particle, or the superstring in that particle that acts like a sail. 

This theory requires that there is an identical particle in all other structures. And that thing can explain why dark energy is impossible to see. 

https://astronomyandtechnology.blogspot.com/

Wormholes could explain dark energy and dark matter.

When we think that the hypothetical graviton particle is a quantum size black hole. That thing can also explain dark energy and dark matter. If a mysterious and still hypothetical graviton particle is a quantum-size black hole that quantum-size black hole is acting like all other black holes. 

The time is inverse also in the quantum-size black holes. And that thing could pull superstrings inside it. So the quantum size black hole will transfer superstrings to the point in spacetime, where it formed. And that thing can explain why we cannot see dark matter. 

*If graviton is the quantum-size black hole. That can explain dark energy and dark matter. 

*Quantum-size black holes are similar to regular black holes. They are time loops. 

When escaping velocity turns higher than the speed of light. Time starts to run backward. And black hole brings the material to the point, where it was born. 

*The dark energy could be like Hawking radiation. In that case, quantum-size black holes send (Hawking) radiation. That has a different wavelength than Hawking radiation. That comes out from regular black holes. 

*And dark matter is material that travels in wormholes. 

If dark matter is material that travels in the wormholes and the black hole is the wormhole itself. That thing can explain why we cannot see dark matter or dark energy. 

The black hole is a time loop. 

When escaping velocity is the same as the speed of light time stops. And when escaping velocity turns higher than the speed of light. Time turns to run backward. 

So black hole takes the material to the point in spacetime where it is formed. When the material is in a wormhole or a black hole. It cannot interact straight. But black holes can send Hawking Radiation, which means. 

That there is interaction also outwards from the singularity. And that thing causes one question. Is the dark energy some kind of Hawking radiation? There is the possibility that a quantum-size black hole is sending (Hawking) radiation that has a different wavelength than regular-size black holes. 

String theory explains material is formed of 2D superstrings that can explain dark energy and maybe dark matter. Maybe superstrings are the thing called "information". And that tells that superstrings have mass. The mass of the superstrings is minimal. 

A large number of those things can explain dark energy and dark matter. If the form of all particles is a yarn ball that is formed of flat superstrings that explains why those superstrings are so hard to detect. 

https://www.sciencealert.com/wormholes-may-already-have-been-detected-physicists-say

https://www.siliconrepublic.com/innovation/wormhole-travel-possible

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

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

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

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

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

https://astronomyandtechnology.blogspot.com/

Researchers may find the wormhole. But they cannot recognize it.

There are three main requirements for stable wormholes.

*The black holes must superposition and make quantum entanglement between them. 

*Energy level between those black holes must be different. If one black hole is at a higher energy level than the other that makes energy flow in a wormhole possible. 

*And the energy level of energy that travels in the wormhole must be higher than its environment. The coherent wave motion inside the wormhole keeps it open. 

The wormhole is open until the wave motion that comes outside breaks it. This is why stable wormholes are possible only between two black holes. 

Image II Cosmic web

Could dark matter be material that travels in wormholes? And could wormholes form the cosmic web? 

Could the wormholes be the effect behind the cosmic web? In some theories, the so-called cosmic web is forming around wormholes. And there is the possibility that dark matter is matter that travels in wormholes. Because wormholes isolate material that travels in it. This makes the material invisible to us. 

The black hole itself is the wormhole or time loop.

The black hole itself is the wormhole or time loop. The reason for that is that the escaping velocity in that object is higher than the speed of light. And because the dropping speed of the material is the same as with escaping velocity. When the speed of the particle reaches the speed of light time stops. And when escaping velocity turns higher than the speed of light the time should turn to travel backward.  And when material drops in a black hole it should come out from the point in spacetime where the black hole formed. 

It's possible that researchers just don't recognize the wormhole. 

There is a possibility that the first wormhole or Einstein-Rose bridge has already been found, but researchers don't recognize it. That could be one version of the problem in science. There are lots of phenomena that exist, but confirmation of those things is difficult. And until researchers get confirmation the thing is theoretical. 

The shape of the wormhole is simple. Its two superpositioned and entangled black holes. So it's the extreme version of quantum entanglement. And the next question is: can information travel in a wormhole? 

The answer is yes. The requirement that information can travel in a wormhole is that another side of the quantum entanglement is at a higher energy level than the other. And the wormhole is one of the quantum entanglement. 

The thing that keeps the wormhole open is the energy that travels inside it. If the outside energy causes the collapse of the wormhole that requires that outcoming energy has a higher level. 

And also another side of the wormhole must be at a higher energy level. If the energy level of both black holes is the same that causes the impact of the wave motion in the middle of that energy channel. And that destroys the quantum entanglement. 

We know that wormhole is possible. Laser and maser rays are energy channels through the universe. 

They are electromagnetic wormholes. The wormhole is the channel where is no crossing electromagnetic wave motion. 

Or that wave motion is coherent. So if an object travels in a wormhole it rides with that wave motion. The thing that makes wormholes possible is the electromagnetic tornado. The wave motion closes the channel inside it. And that electromagnetic tornado denies the outcoming wave motion's effect on that channel. Then wave motion that travels in that channel keeps it open. 

The reason why stable wormholes can form only between two black holes is that black holes are the highest energy objects in the universe. If we think that wormhole collapses because of outcoming energy the energy level of that radiation must be higher than the energy level of the radiation or wave motion that keeps the wormhole open. If that energy level is lower. It causes the collapse of the wormhole. 

 https://www.livescience.com/63847-facts-about-the-milky-way.html

https://www.sciencealert.com/wormholes-may-already-have-been-detected-physicists-say

https://astronomyandtechnology.blogspot.com/

Could graviton be one or two quantum-size black holes?

Another model that could explain why gravitation is so special. 

Above this text is an image of the black hole. But that image could be the image of a quark. In some scenarios, the graviton is a small black hole inside the quantum field. The quantum tornado forms the point where that radiation pushes the quantum field away. So there is the electromagnetic vacuum that pulls the quantum field to the ball-shaped form. But there is also another version of the graviton and its interactions. 

The hypothetical graviton particle that should transport gravitation may be two quantum size black holes. That thing causes a quantum field whose shape is similar to the magnetic field that forms around a rod magnet. Those quantum-size black holes would be the south pole against the north pole. And there is forming a quantum tornado around those two black holes. 

Then the quantum fields are forming the lightning structure or superstring structure. That is looking like a whisk. When those black holes that size is smaller than quarks are starting to make the quantum fields or quantum lightning around them the outcoming radiation makes those flashes of lightning stronger. Because that structure starts to rotate, it turns to look like a ball. And maybe that thing is the quark. Maybe that kind of thing could explain gravitation. 

Another model of gravitation or graviton particle is that gravitation is the force that is forming around the fast-spinning particle. The idea is that when a particle spins. It creates the effect where wave motion travels to the poles or the axle of the spinning particle. And because the particle is extremely small. 

There forms a small quantum vacuum bubble to its poles because those waves impact each other just above the quantum field of that spinning particle. That bubble starts to pull wave motion to the axle of the particle. So when wave motion travels at the surface of the particle. 

Those waves are transporting the wave motion that hits the particle to its poles. So that means the particle that is making the effect of gravitation is like a neutron star or black hole. When a particle spins at an extremely high speed. It transfers wave motion to its poles like neutron stars or black holes are transferring. 

What makes gravitation interesting? That is that the graviton is missing. There is the possibility that a graviton is a quantum-size black hole or so-called black photon. The form of the graviton is one of the most important things in the gravitation theory. 

The thing is that things like neutron stars or black holes are not forming energy from nothingness. They are like generators. Generators are transforming motion into electromagnetism. The thing that neutron stars and black holes are doing the same thing. They are transforming electromagnetic fields into powerful energy beams. 

Or otherways saying they are transferring the frequency of the radio waves to X- and gamma rays. In similar ways, the Casimir effect doesn't make energy from nothingness. When Casimir plates are taken very close to each other electron cores form the quantum bridge over that hole. Then the outcoming radiation will inject energy into those bridges. And that thing loads the energy to the Casimir circuit. 

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

Could gravitation form when quarks are moving back and forth?

There is one forgotten version of the gravitation theory. The idea in this theory is gravitation forms when particles inside protons and neutrons oscillate. When the size or the distance of those particles changes. That thing forms an effect that is like a pump. So the gravitational effect forms when quarks are moving back and forth inside their quantum field. If that movement forms gravitation, it will explain things like gravitational waves. 

When the distance of quarks inside protons and neutrons expands, that motion forms quantum low pressure between those particles. That low pressure causes the electromagnetic- or quantum fields are dropping between those particles. So could that thing be gravitation? That explains why planets are the gravitational centers. 

There are lots of protons and neutrons. And when the quarks that form those particles are moving back and forth that thing causes an electromagnetic pumping effect where the force of the quantum field between those particles changes. 

When those quarks are closing each other they are forming a standing quantum wave between them. And in that case that virtual particle will send wave motion or gravitational waves to the universe. That thing explains gravitational waves. 

The mystery of gravitation is an interesting thing. There is a possibility that mysterious gravitons are only oscillating quantum fields. When the size of the particles is turning smaller. That thing also causes the position where escaping quantum field forms the electromagnetic low-pressure zone that pulls quantum fields to that particle. 

The pulling effect of the gravitation forms. When the particle rides with wave motion that falls to the gravitational center that model is true. The gravitation effect is similar to other fundamental forces. 

That means electromagnetic wave motion travels through a hole that is in the middle of those three quarks. That means those waves are traveling in and out from three quarks. And the incoming electromagnetic field or radiation forms the cone that causes scattering to the outcoming electromagnetic field. 

The idea is that when the distance between those quarks increases that pulls the quantum field through it. That quantum field continues its journey. And the same effect happens on both sides. There is the possibility that the impacting electromagnetic or quantum fields are forming a quantum bubble in the middle of those quarks. 

That bubble pushes radiation away from it. Around that bubble is forming an area that is at a lower energy state than the quark. And that forms bridges or gluons between those quarks. The outcoming energy can travel between those bridges. And maybe that is one form of gravitation. 

The thing that might make photons unique is that they are somehow slight. Maybe the thing that explains the photon's speed is that the particle's quantum field somehow pulls energy inside it as much as it delivers. The interesting thing is that the speed of light is lower in the medium can be explained in this way. 

The medium pulls the energy away from the photon faster than a vacuum. But fast-moving particle replaces the lost energy. In a vacuum, the photon travels at the same speed as wave motion. So because quantum fields cannot fly out from photons. That means those particles' speeds will not decrease.