Our knowledge of black holes is expanding.

  Our knowledge of black holes is expanding.

 

"Researchers believe that an odd pair of merging black holes first detected in 2019 were "dancing" around a third supersized singularity that was lurking in the background. (Image credit: CNAS/SHAO)" (LiveScience, Scientists think they detected the first known triple black hole system in the universe — and then watched it die)

       

Researchers believe. They found the first triple black hole system. And if that is true. It proves that black holes can form similar systems. To “regular”stars form. In some visions, black holes can form entire galaxies. Those three black holes are going to their end. There is one supermassive and two smaller black holes.  Black holes can hijack each other. Or massive stars in the same star system can form a group of black holes. A black hole’s relativistic jet can also press things like planets into black holes. There are no observations about that kind of black hole. But theoretically, high-energy jets can raise the energy level in the planet’s atmosphere so high that the energy in its atmosphere can press it into one entirety.     

Our understanding of black holes is continually expanding. Due to new observation models and fundamental mathematical and computational tools, such as quantum computers and AI, we can develop new models of the most fascinating phenomena in the universe. In the past, we thought that black holes were only destroyers. When information fell into a black hole. That means the information is gone forever. But today we think differently. The key element in quantum mechanics is that information cannot just vanish. Information can only change its form. A black hole  rolls information into it. In the yarn ball model, a black hole rolls information into its event horizon like the strings or wires. Those wires store information that the black hole releases as wave movement. 

When we look at the black hole’s event horizon, we would see that thing waving. When those waves move up and down, they send waves to space. When the wave pushes the quantum field around the event horizon and falls back, it leaves a small quantum vacuum between the event horizon. And the quantum field around it. That pulls energy or information out from the black hole. When a black hole's event horizon separates from the whirl around it, it allows it to send a wave burst. The black hole is an interaction. If the outside whirl that includes quantum fields and material is removed, the black hole will be destroyed. 

The black hole’s evaporation causes a similar effect to what ice makes when we transport it into the room. When a black hole evaporates, energy field. That comes from outside, try to fill that space. So what if black hole’s evaporation ends? What if a black hole sometimes reaches energy stability with space around it? That can cause a situation where energy or a quantum field don’tt move to the black hole. Or out of it. That thing can turn a black hole completely invisible. And that causes a wild theory that maybe dark matter could be black holes that almost reach energy stability with their environment. 

Black holes are like gravitational solitons. They are packed gravitational wave packages. Like impacting, identical laser beams or identical acoustic waves can form solitons. Gravitational waves that impact with each other can form a gravitational soliton. 

Today, we think that the black hole evaporates. In that process black hole releases information that is stored in the form of Hawking radiation. Or, in the form of gravitational waves. So can the black hole have hair? Maybe a black hole has so-called soft hair, or maybe it’s partially bald. The black hole’s hair means strings that transport information out from that structure. The black hole is not completely smooth. There are small hills and valleys in its structure. If a black hole were to be completely smooth, that means that it could not touch the fields around it. Those small hills and valleys would play an important role in black hole interactions. 

Those small hills and valleys form when a black hole forms. And supernova energy presses those particles into one entirety. Called a singularity. Electrons that orbit atoms will be smashed against the atom's nucleus. And they leave at the shell of that thing as the quantum-sized hills and valleys. There are also models where there are no singularities. Singularities can explain some black holes. Things like the Kugelblitz theory suggest. Black holes can form from the energy fields or wave movement. In that case, something starts to transport energy out from a certain point. And then energy or wave movement that comes from around tries to fill that point. This thing could prove superstring theory. 

That means black holes are like gravitational solitons. When gravity fields start to travel against each other. That effect locks wave movement in the gravitational wave soliton. Can that soliton be stable? That depends on the energy that whirls around it. If that gravitational soliton can form a whirl that is large enough that it cannot let energy or wave movement travel out from that soliton, that makes it stable. Maybe not all black holes are similar. Some of them might have a singularity. And some of them might not have that thing. Black holes are not destroyers. 

They store information in them. In new models, there can even be universes inside black holes. And in wildest models, our universe exists in a black hole. In this model, we cannot see the black hole’s event horizon because it's too far away. In some models, there is also a shockwave inside the event horizon that covers the event horizon itself. And when information travels through that event horizon, it stretches those waves. And anyway, the black hole is surrounded by a material disk. That covers things that are outside that thing. 

There is a possibility that our universe formed when a black hole from the previous universe detonated. Those new models are tools that can open the biggest mystery in the universe. Black holes can offer a solution for information paradoxes. And answer how the universe formed. 

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

Black holes, fractals, and G-field interaction.

  Black holes, fractals, and G-field interaction. 

"Illustration of two novel theories exploring dark matter origins through a mirror world and early universe horizon." (Rude Baguette, “Dark Matter May Come From A Mirror World”: Bold Theories Suggest Hidden Twin Universe And Particle Factory At The Edge Of The Young Cosmos)

There is a possibility that some conditions in black holes are similar to those in a hypothetical anti-universe. That means black holes can be the source of dark matter. But if that is true. That model requires. There is a small anti-universe, or an anti-universe-like space, in every black hole. And if the only thing that differs between the anti-universe and our universe is the direction of time, that means there can be a small anti-universe in the black holes. Time travels in the opposite direction in black holes. So, maybe there are anti-universe-type conditions, and maybe. Some part of dark matter, or mysterious gravitational effects, forms in black holes. 

The new interesting theory about the origin of dark matter in the anti-universe requires more thinking. The thing is that the dark matter formed in the anti-universe is somehow utopian. However, theoretically, there could be anti-universes or structures that behave like an anti-universe within our universe. Those places are black holes. Behind the event horizon, time should move backward. And that thing can form a small-sized mini-universe in the black hole. 

The problem is how those weakly interacting massive particles, WIMPs, hypothetical dark matter particles, can escape from the black holes? The black hole vaporization can cause those particles to escape from the black hole. All black holes are losing mass. During that thing, the black hole sends gravitational waves. So, there is a possibility. The gravitational waves form when hypothetical gravitons are left outside the event horizon. When a black hole loses its mass. The event horizon withdraws, and that causes particles like gravitons to be left outside it. 

Another way to think about the black hole vaporization is to think of the black hole as a whirl. That while it always interacts with its environment, as all other whirls do. That whirl causes friction in the medium between the whirl's internal and outside structure. That means the contact between those whirls and the outside environment causes small whirls that steal energy from the higher energy space or field. 

Above: A Fractal can introduce a model of how a black hole, or the whirl in the Gravity, or G-field, creates other whirls around it. When it interacts with the outside G-field. 

The idea is that. The G-field makes a whirl when it impacts with another G-field that moves in another direction. In the same way, water forms whirls into the points where water flows in opposite directions. 

So, if we think that time is also like wave movement, the time that moves backward behind the event horizon can form a whirl in time or 4th. Dimension in the point where time moves forward and backward. And that point is the black hole event horizon. 

When escape velocity turns higher than the speed of light. That means time turns to travel backwards. 

At the point where escape velocity reaches the speed of light, time stops. And then the time starts to travel in the opposite direction when escape velocity turns higher than the speed of light. So, there should be some kind of whirl in time. 

And if we think that a black hole is like a time arrow that moves back in time, that means it should push particles around it forward in time faster than otherwise. That means if we use the time arrow model for that case, the particle near the black hole's event horizon should turn "very light" so that it can fall to the future. That means the time arrow, or the arrow of time, should push particles in the opposite direction when it travels through the spacetime. But that is only a philosophical expansion of that model. 

In the black hole case, the whirl is like in a G-field. That whirl interacts with the G-field that is outside that black hole or dense gravity, or the G-field whirl. When those environments touch each other, that forms a whirl. And that means the event horizon is full of whirls that are lying. The whirl's center is horizontal to the event horizon. And they can drive energy out from a black hole.

In some other models, the event horizon is a layer that seems to be full of photons. Those photons might make it seem like a ball, made of car tyres. That means the gravitons can escape from the middle of those photons. Or they can send gravitational waves to gravitons outside the event horizon. The event horizon can also send whirls inside the event horizon, and that forms entropy in the black hole. 

The idea is that the G-field is an independent energy field. That G-field forms from gravity waves. In black holes, the G-field has a higher energy level than the G-field outside the black hole. That means the G-field travels outside the black hole. The G-field is one of the fields of four fundamental forces. Those forces are gravity, weak, and strong nuclear interactions. And electromagnetism. 

Those fields are independently interacting substances. And that means G-field can rise to a very high energy level, and that doesn't mean that other fields must rise their energy level. But if the G-field is at a very high energy level. Or its density is so high that it can push other fields from around it. In the same way, if the G-field spins fast enough, that thing doesn't let other fields in it. 

The whirl interacts like a wheel that lets material and wave movement travel through the black hole. There could be a superstring or energy string that travels through the center of the whirl. But then. Those whirls are pumping energy out from the black hole. The black hole can also form whirls that can separate from the event horizon. Those whirls are like small kugelblitz-black holes. There is a possibility. Those whirls just explode immediately after they separate from the event horizon. 

https://www.rudebaguette.com/en/2025/08/dark-matter-may-come-from-a-mirror-world-bold-theories-suggest-hidden-twin-universe-and-particle-factory-at-the-edge-of-the-young-cosmos/

https://scitechdaily.com/two-wild-new-theories-could-finally-explain-dark-matter/

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

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

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

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

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

Everything forms in spirals.

Above: The fractal structure of the Messier-74 galaxy. In those structures energy and gravity are in an eternal race. You can also see things like holes in that gas disk, or a galactic nebula.  If there is a whirl there are four possibilities. There can form planets and the sun. But if the star that forms is too big, it blows the material disk away from its environment. And that denies the planetary system formation. Or if the disk is very massive it falls straight to a black hole. The empty places in the disk are areas where some cosmic catastrophe has blown the material away. 

Or there is a possibility that a denser spherically-shaped material cloud or nebula pulls material away from the middle of it. Or in those holes formed stars and planets or black holes pulled that gas away from those holes in the nebula. Or, maybe the extremely powerful supernovas blew cosmic gas away from that point. 

JWST found new data to explain how spiral galaxies form. There are two structures in the spiral galaxy: thin and thick. The thin disk can form earlier and then the thin structure's gravity starts to collect the thick structure around it. Those two structures move at different speeds and that causes problems with the models. 

The spiral structures that move at different speeds create the whirls that start to collect material into them. So, the star formation begins in those points. That thing explains the star, planet, and finally neutron star and black hole formation as the whirls that form around material. Or actually, all particles in the universe from the quark to the most massive objects form from whirls.

"Webb/NIRCam composite images of a quarter of the team’s sample sorted by increasing redshift. Image credit: Tsukui et al., doi: 10.1093/mnras/staf604." (SciNews, Webb Sheds New Light on Structural Evolution of Disk Galaxies)

If the whirl is large enough it can press the particle or any other object into one entirety called a singularity. The particle that spins at a very high speed binds quantum fields around itself. And how big an object can that process form? That depends on the energy level of that particle. The energy transfer into that particle continues until it can push that whirl away from it. So theoretically one single particle like a proton or electron can form a supermassive black hole. But that requires an absolutely stable environment. 

The requirement is that the particles can form such a large whirl and bind energy or quantum fields into it so fast that it cannot push that energy away. That means the particle must spin with an extremely high speed. The idea is that the black hole or any other structure in the universe creates a whirl around it. An interesting thing is that all objects from stars to planets are forming from whirl-shaped structures. The spiral galaxy is actually the supermassive black hole’s material disk. That disk keeps the supermassive black hole in its form. Without that disk, the energy that is trapped in the black hole will be released. 

The black hole’s relativistic jet tells that the gravity center is a structure that aims, or conducts energy somewhere else. Energy travels to the black hole’s spin axis and there forms the relativistic jets. The main problem is: is the source of the relativistic jet outside the event horizon or inside it? In a wormhole model, the black hole forms a gravitational tornado. The structure forms a situation where a gravitational field or quantum field forms a tornado-shaped structure. The idea of that phenomenon is that if the gravity field turns into a spiral, then that thing causes a situation where there is no gravity field in the black hole’s spin axis. Maybe that channel explains the relativistic jet. 

https://esawebb.org/wordbank/electromagnetic-spectrum/

https://www.sci.news/astronomy/webb-structural-evolution-disk-galaxies-14026.html

Gravity waves are new tools for observers.

Gravity waves and their shape are interesting. The gravitational model goes like this. The fast-spinning object binds energy into itself in the form of the kinetic energy. During that process, the particle rolls energy fields around it. That form looks like an onion. Those fields might look like solid structures but because four fundamental interactions have different wavelengths those layers have space or energy ditches between them. 

The black hole and other gravity centers roll those spaces around them. And if outcoming energy and material flow ends the black hole vaporizes. Or it releases energy. In that process, the black hole's energy field's outer layer jumps back. That forms space between those energy layers inside the event horizon. That releases superstrings that are thin energy fields into those holes. The incoming superstring has a higher energy load than the outer energy field. And that energy starts to push those energy layers away. 

So gravity can pull objects straight with energy fields that roll into them. That energy that a black hole binds is like a river that pulls all objects inside a black hole. But there is also the possibility that gravitational waves can also pull objects to the gravitational center. The fact about black holes is that those things are not the most typical gravity centers in the universe. Black holes are the most extreme gravitational effects. However, the most typical gravitational centers are not so extreme. They are very weak gravitational objects. 

The most typical gravity centers are atoms and molecules. And the most typical elements are the most typical gravitational centers. Those most typical elements are electrons or some particles with mass.  The model is that all particles have also gravitational fields. That is called quantum gravitation. 

The question is are quantum and normal gravitation the same thing? There is a model that gravity centers are formed of one or more quantum gravitational dots. The mass of the neutrino is so low. Because its spin is very slow. The false vacuum model explains the mass of particles that there is a false vacuum inside it. So photon has no mass because there is no false vacuum inside it. That means a photon can turn flat, but it cannot form a false vacuum inside it. That means the photon cannot turn flat. When a particle slows it must release its energy to somewhere. When a particle turns flat it starts to deliver more energy to the space that is opposite to the particle's moving direction. 

How the gravitation can turn opposite? If a gravity wave is an energy ditch that travels around the universe. The answer is this: something must fill the gravity wave. Or something must form an energy field in the gravity wave that turns its energy level higher than the environment. That thing can be the impacting superstrings that form the quantum electric arc or quantum pressure wave that turns the energy level in the gravity wave higher than the environment. 

Gravity can be a field interaction where the particle in the middle of the field binds the field into the kinetic energy. When a particle's spin slows that thing delivers energy. And in the case of the black hole that energy is gravitational wave. But why that wave doesn't push objects back? The idea is that the gravitational wave is like a ditch that travels in the energy field. The energy ditch bottom is at a lower level. If it's closer to the gravity center. 

And then can cause an effect that the decreasing depth of those waves just makes objects fall to the gravity center. Or the shape of those energy waves can be like a false vacuum model. That means there is a step or small pothole before the energy minimum. And together with vacuum and false vacuum, or false energy minimum and energy minimum can together form the case where the energy hill is lower than the bottoms of those energy ditches together. So what does that thing mean? 

There was one strange model that in the Big Bang gravity turned opposite. How can this be possible? There is a model that the superstrings form all material there is the possibility that gravity turns the opposite. The idea is that some of those superstrings can fall into those gravity, or energy ditches. In that case, those impacting superstrings form the thing, that looks like an electric arc. 

That effect can fill the gravity wave or energy ditch. In that case the gravitational wave can: 

A) Fill

B) Face the faith that we call false-vacuum decay. 

If the false vacuum happens in that energy ditch or gravity wave that wave turns into a series of the lower, or less deep gravity waves. The false vacuum decay can turn those gravity waves so low that they cannot affect the object. The thing is that that impact must only raise the energy level in the gravity waves higher than the environment. There is the possibility that this effect happens in black holes. Without depending on the existence of singularities and how gravity interacts the black hole pulls fields inside it. The problem is that there a small holes or ditches in that structure, that look like onions. 

There is a possibility that wave movement or superstring can fall to those small ditches or holes. That can cause a situation in which this string or thin energy field conducts energy straight to the outer shell. Or the inner energy shell delivers the superstring that impacts with another superstring. And anyway, if the superstring falls to an energy ditch between those layers it delivers energy. That can cause a situation in which the energy ditch fills and sends energy impulses against that structure. 

There are also other effects. That can turn the gravity wave opposite. When wave movement falls into a gravity wave it's like water that falls into the gutter. There is the possibility that in gravity wave is the superstring. When an energy wave hits that thing it can decay and that causes an effect that energy comes out from the gravity wave. Or when energy falls to the gravity wave it pushes energy that is locked in that wave up. And that causes the splatter when the energy level in the gravity wave rises over the edge of that energy ditch. 

https://bigthink.com/starts-with-a-bang/starts-with-a-bang-podcast-117-gravitational-waves-and-the-universe/

Can black holes be portals to other universes?

"A wormhole visualized as a two-dimensional surface. Route (a) is the shortest path through normal space between points 1 and 2; route (b) is a shorter path through a wormhole." (Wikipedia, Wormhole)

This is an interesting idea. That requires the existence of other universes. And proving that. Will prove multiverse existence. But before that, we can only make theories of black holes, white holes, and wormholes. 

The black hole is full of mysteries. The structure is pure gravity. And because escaping velocity is higher than the speed of light. That means time should travel back in that structure. A black hole pulls material inside it. 

Then our knowledge of that thing ends, and we must start to make theories and mathematical models for that phenomenon that is more complicated than nobody knew. 

The extreme density. And extremely powerful gravity field makes the situation that even small differences between those distances affect that structure with enormous power. 

The information will never vanish. And the black hole pulls information inside it. The information exists but is it broken into pieces that will not turn back in one piece? The thing is that if the wormhole exists that structure can be the key to interstellar travel and maybe to dark matter and even dark energy. 

The wormhole or Einstein-Rose bridge forms when the black hole's ultimate dense material touches the fields or superstrings that travel through that structure at the point in spacetime when the black hole forms. The supernova pushes those particles and superstrings into a very dense form. And that very dense form called singularity takes the touch with those fields and then turns them into the rope- or tornado-shape structure. 

There is a theory that this wormhole takes energy and material out of the black hole. The idea is that the black hole's relativistic jet forms around the wormhole. The wormhole is the whirl, or internal whirl in the quantum fields. There is the possibility that the wormhole is an internal quantum whirl that explains its hypothetical abilities. 

So we can think that the wormhole and some of the black hole's abilities form in the whirl-shape structure that surrounds the channel. That energy, or quantum whirl interacts with its environment like a Tipler cylinder. That means the thing that goes in the wormhole goes to the time trip. 

The black hole is like a Tipler cylinder itself. That structure transports energy and information to the point, where black holes form. When we think about the hypothetical wormhole and its rope-shaped form where all energy tornadoes are separated that means this. When energy travels through the wormhole it is like a light cable and a series of optic fibers. 

When energy travels through those quantum tornadoes it raises energy levels in fields around it. That energy pushes those strings away from each other because when the energy level in the fields rises it pushes those fields in the middle of those strings. 

And that forms entropy. The other thing is that. Entropy is also formed when a black hole travels in time. When the universe expands that means black holes always turn smaller. And pulls smaller masses of information into it. That causes them to turn into energy. Or they send energy waves. 

The black hole loses all the time its mass. And that makes it look like a cone if we see that route in time. The mass of information that the structure gets decreases. That causes the point that pulls information into it to always turn smaller. So it's like a funnel that is upside down. That makes space and entropy in a black hole. And the black hole itself is the wormhole that transports information back in time. 

The question is this: does the wormhole have a coherent, or non-coherent structure? 

There is the possibility that the wormhole is like a rope. The structure that is is formed of millions or even billions of small strings. Those strings are the quantum tornadoes that close energy and time inside them. 

If the wormhole is multiple internal energy tornadoes. So can this kind of structure transmit information through them? That thing depends on harmony. The requirement that information can travel through those wormholes is that there is not too much entropy. If the distance between those energy tornadoes is too long, information is destroyed. 

If the speed of information is the same and information travels through those quantum tornadoes in the same direction. That allows this structure to transport information. And keep it in the same form.  But if the information travels in two directions that thing breaks the form of the information. 

The thing is that the wormhole is an interesting phenomenon. And our knowledge of black holes grows all the time. We know electromagnetic and acoustic wormholes. So why the ultimate gravitational wormhole cannot be possible?

 https://scitechdaily.com/could-black-holes-be-portals-to-a-new-universe-scientists-weigh-in/

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

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

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

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

https://astronomyandtechnology.blogspot.com/

What makes a black hole's gravity field so strong?

Above: A gravitational lens is a situation where the gravity field changes the direction of light. 

Black holes spin very fast. That spin conducts energy inside it. And black hole is like other gravity centers. It moves energy fields inside it. That makes the black hole so powerful. A black hole grows when it can bind quantum fields inside it. Spinning particle turns fields that bind into kinetic energy. When an object spins it binds energy in it. 

And it must harness or take that energy from somewhere. When an energy field is bound in some object, that means there must come other energy to fill that "hole". That thing creates a whirl that expands all the time. The outcoming energy field presses particles into a black hole or other gravity centers. And that outside energy keeps a black hole in its form. 

The thing. That makes a black hole's ultimate gravity field is the combination of electromagnetic shadow. And outcoming energy field. 

That shadow forms when particles like electrons, quarks, and finally photons orbit a black hole in the point called the event horizon. 

The outcoming energy field pushes those particles to the event horizon. 

When a black hole's mass rises it forms. A larger energy field around it. That forms a larger whirl. Because higher energy fields can interact over longer distances. When a black hole spins it transports outside energy into it. And that energy transports particles into it. 

The ultra-powerful gravity field around the black hole forms in the combination of electromagnetic shadow and gravity field that travels inside the black hole. When a black hole is separated from that field it causes changes in its entropy. And that makes gravitational whirls behind its event horizon. Differences in the strength of the outcoming energy field make the quantum points in the event horizon.

That makes energy travel horizontally in the black hole. In the event horizon energy travels mainly vertically straight into its core or into the center of the event horizon. But there is small turbulence in that thing that forms entropy. The entropy forms when those energy strings jump back when they impact each other in the middle of the black hole. But the energy level in those strings is not the same. And that causes wave movement in the black hole. 

That means. There is more energy. That presses the particles against that point. If that pressure is off those particles will fly away. The outcoming energy keeps a black hole in its form. In some theories, supercivilization can control the black hole closing it in the ball that denies its energy interaction. That causes an explosion. Or it pulls the event horizon outward and that increases entropy. That entropy detonates a black hole. 

"Representation of the gravitational field of Earth and Moon combined (not to scale). Vector field (blue) and its associated scalar potential field (red). Point P between earth and moon is the point of equilibrium." (Wikipedia, Gravitational field)

 A black hole is the ultimate gravity field. We see only the event horizon. The point where escaping velocity is the same as the speed of light. Or we cannot see the event horizon itself. We can see the point that is just ahead event horizon. In event horizons, the photons orbit the structure that is the most incredible that we can imagine. That point freezes information into it. 

If we are sharp, we can say that the event horizon is the point where photons start to orbit the gravity center. At the front of that point is the area where other particles like electrons and protons orbit that thing. So, there are circles around black holes there are particle groups like planets, molecules, protons, neutrons, and free quarks and finally photons can take stable trajectories. 

When a black hole pulls fields through those particles that thing pumps energy to them. That is one version of time dilation. When the energy level of those particles turns high enough they send energy waves. The event horizon is not a precise point. The photons that are trapped in it can have different energy levels. That makes them send wave movement. 

The outcoming energy field forms the shadow at the front of the particle. The black hole's gravity field is a combination of electromagnetic shadow and traveling fields that move everything with it. 

So, we normally think that the event horizon is the black hole's shell. But that's only the point. Where the light cannot escape from that structure.  Behind that point is the unknown world where gravitational turbulence dominates the interactions. The thing that makes the gravitational field around black holes so strong is that there is a double effect. The black hole pulls fields inside it. Otherwise, we can say that it harvests energy from its environment. That traveling energy field transports particles into a black hole. 

But the thing that makes this gravity effect so powerful is that the black hole also pulls fields inside it. Those fields impact with particles that orbit the black hole at the point of its event horizon and just ahead of it. That thing forms the electromagnetic shadow behind those particles and photons. That combination makes the ultimate gravity effect in the black hole possible. In regular gravity fields the gravity center pulls fields inside it. That effect cannot form electromagnetic shadow into the structure. 

When we think that a black hole stretches information into a form that looks like spaghetti or string. That thing means that the black hole's gravity field is not coherent. A black hole presses material so much that it cannot turn denser or take energy inside it. So each of those spaghetti strings is separated. Energy travels between those strings. And that makes the chaos or turbulence. And that internal energy movement causes entropy. Those superstrings can conduct energy out from the black hole. And black hole's internal turbulence or entropy causes those gravity waves. 

https://hubblesite.org/contents/media/images/2022/001/01FRKBDN5YKMM9ZMT5Q7TSN4RN

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

Gravity and entropy.

 

From the point of gravity model. The problem with this image is that. Both balls should have a pothole under them. Those potholes make energy travel between those objects. And that causes things like quakes in black holes. Energy that travels between gravity quantum points makes shockwaves around the entirety. 

Gravity fields form multiple gravity fields or sub-fields that form around individual quantum points. We see those things as entirety or coherent fields. But they form around multiple particles. That forms space and entropy in the gravity field. 

The problem with this image is that. Both balls should have a pothole under them. Gravity fields form multiple gravity fields or sub-fields that form around individual quantum points. We see those things as entirety or coherent fields. But they form around multiple particles. That forms space and entropy in the gravity field

Space between actors makes space in the gravity field. And that is the beginning of entropy. The actor that makes the gravity field is an elementary particle. And the gravity field that outsider sees. Is the sum of those actors' gravity. That thing means there is space between those fields. That space forms entropy. 

Quantum gravity means the electron's, quark's, and other particles' gravity field. The spin of the particle has a connection with its mass. The mass is conducted with gravity force. That means the gravity field's strength is the speed at which the particle transports or harvests energy inside it. When a particle harvests energy from its environment it transports the field inside it. That energy field transports other things with it. 

So time dilation forms when that energy impacts particles. That energy is like wind that transfers energy into those particles. That energy forms a quantum shadow that pulls particles with it. 

When we look at gravity fields, we might think that they are uniform. Gravity fields are not coherent. They form around multiple particles. The gravity field in the gravity center looks like whirls. Which means the gravity center is not monolithic. There are multiple gravity centers in the gravity field's center, so the gravity field is virtually coherent. When we think that mass, energy, and density are things that form gravity, we can make a model where the gravity field is like a whirl. When a particle starts to spin it bounds energy into itself. So black holes are only fast-spinning and very dense objects. 

When an object spins at a very high speed it forms an electromagnetic shadow or vacuum around its shell. Those shadows make the energy fields travel to that object. The dense object has smaller "hills" and "valleys" on its shell. Then less dense objects have. In this text, particle means single elementary particle like quark. The object means the group of quarks or other actors. 

The object can spin faster because it doesn't deliver as much energy into its space. The object turns into a black hole if it cannot deliver the energy that it harvests from its environment. So when the spinning object increases its energy level it will just harvest it from its environment. When an object spins faster and faster it forms an energy bubble around it and if energy that jumps out from the particle cannot cross that bubble it gets more and more energy. 

Energy in that bubble pushes particles or objects into denser and denser forms. So when the uneven things on the particle's or object's shell harvest energy into it, that thing makes a small channel through the energy field. And those things are things that form the gravity field. So we can make a model that gravity is the hole in the energy field. Those channels are like tubes or rubber hoses that turn closer and closer to each other inside the gravity center. They form a tight bundle that unites in the gravity center. There is always a small point in the ball there is no gravity. 

In the gravity field, every single object or actor has its own gravity field. That means gravity fields are multiple fields. Because the gravity field is not uniform or coherent that forms space in the field. And that space makes entropy. 

Quantum gravity has a connection with entropy. So, what does that mean in real life? That means the gravity field is not coherent. In gravity models, every single particle with mass has its own gravity field. So, gravity fields have multiple cores. Every particle in its entirety. Forms a gravity field around it. That gravity field can look like a whirl. That means there is free space in the gravity field. Those whirls interact with each other and that forms smaller and smaller whirls around those gravity fields. And those small whirls turn larger all the time. In that process, every single particle or actor in the gravity field transports a little bit of themselves to those whirls that look like fractals. 

 https://phys.org/news/2025-03-sneaky-clocks-uncovering-einstein-interacting.html

https://interestingengineering.com/science/quantum-gravity-einstein-entropy

Chaos is the thing that limits our range of view things.

The black hole's mathematical shape is a hyperbolic layer. 

Chaos or entropy is what limits our view. 

We cannot see the other side of the universe without very powerful telescopes. Because the entropy or whirls in space disturb information. Entropy or chaos makes it impossible to see things that happen in the future. The nature of time is simple.

Time travels in a certain way because the past is at a higher energy level than the future. There is the possibility that high-energy events like supernovas or kilonovas can push information back in time. Information cannot vanish but entropy disturbs it so much, that we cannot understand it.  

When information travels back in time the situation is similar to the case, when an ocean wave travels against the river. The counter waves or counter energy sorts or crypts information into the whirling form that is impossible to sort into an understandable form. 

In the same way, we can say that black holes encrypt information. Black holes themselves are things that make time travel backward inside them. But the hyperbolic structure of the black holes causes things that in the past the energy could also travel inside the black hole.

Black holes stretch information and information that travels through them is like strings. When other strings come against- or between those strings that causes whirling or entropy in the black hole. The reason for that is that superstrings are interacting with fields around them. They push energy to those fields and then those quantum fields rise against the strings. 

The black hole is like a cone that travels through time. The universe's expansion causes the situation that black hole has less material to eat. And that means it loses its mass all the time.

That whirl makes it impossible to detect details about information that traveled through the black holes. 

Light cone or time cone, 

The event horizon of the black hole is like a 4D cone. The black hole formed in the past. When a black hole travels in time it loses its mass. The universe's expansion causes that black hole gets always less material in it. And that means it always loses its mass. The 4D cone means that a black hole is like a cone in time. A black hole pulls information in it. Because its escaping velocity is higher than the speed of light that means time should travel backward inside it. But then we can ask: why we cannot see that information. Or why we cannot understand it? 

The black hole is an interesting thing. We can think of its physical form as a simple cone that travels in time. But maybe the internal geometry in the black hole is rather the time cone or hourglass. That means the black hole is the point that focuses information on one point. When those strings impact they form the chaotic form. 

Or we can think that information travels in a black hole in two directions. So, could the black hole be some kind of high energy- or ultra-high energy electric arc? Or can the impacting waves explain its entropy? 

The cone that travels in time is the thing that explains the chaos or entropy inside it. The black hole is like a funnel.  And if we pour water in that funnel that tells why entropy in a black hole encrypts information. The size of the black hole will always turn smaller. And it always pulls less information into it. That means there is space inside that structure. 

The space between those strings allows that little information can also travel against the main pull of the black hole. Same way if we put a funnel to the ground as the larger side to the floor and then pour water to the smaller side there is air that travels against the water. But the thing is that we cannot separate that airflow from the water. 

The entropy forms when information travels in two ways in the black hole. The black hole is like a time cone. Information travels both ways in that structure. 

https://www.quantamagazine.org/new-maps-of-the-bizarre-chaotic-space-time-inside-black-holes-20250224/

Can the photon itself be the origin of dark energy?

"AI-generated representation of an accreting supermassive black hole, surrounded by gas spiraling toward it along the equatorial plane (the accretion disk) and emitting powerful winds of matter as it falls in. This representation is based on a NASA’s artist’s concept that illustrates a supermassive black hole with millions to billions of times the mass of our sun. Credit: Emanuela Tortosa, edited" (ScitechDaily, Supermassive Black Holes Defy Physics to Become Cosmic Titans)

Dark matter and dark energy mysteries are heavily entangled with each other. Maybe supernovas, black holes, and new images of photons can solve another of those two mysteries. It's possible. That the photons are the source of dark energy. The ring-shaped structure means that energy that hits the ring travels into the middle of it. And maybe that thing is the source of the mysterious wave movement that rips the universe into pieces. 

If we think that black holes can turn all photons around it into one direction that causes a situation where the photons send the small energy string away from the black hole. And the other energy pike travels to the black hole. We know that photons can store energy that expands their size. That means the black hole's energy may expand the photon so much, that it can close the black hole in it. 

That means the photon can form a ring around the black hole. The model is that the photon is like a skyrmion. And that means it can turn so large. That it can form a ring around supermassive objects. If a photon can form that ring it can pump lots of energy into the black hole. But that is not sure. 

"A new theory, that explains how light and matter interact at the quantum level has enabled researchers to define for the first time the precise shape of a single photon. Credit: Dr. Benjamin Yuen" (ScitechDaily, Quantum Leap: Scientists Reveal the Shape of a Single Photon for the First Time)

Black holes. And especially supermassive black holes defy physics. The thing is that the black hole pulls wave movement and particles into it. Even if we see the black hole as the stoned object those monsters oscillate all the time. 

That thing means that they could make the same thing to gravity fields as time crystals make to electromagnetic wave movement. The black hole pulls energy fields into it. And some of those energy fields start other orbit the event horizon. When strings that form in the photons hit those fields they cause oscillation that we see as gravitational waves. 

The problem with dark energy and the dark gravity effect is that. There is something that causes gravity waves and quantum fields to move. The movement of those things is the thing that we see as gravity and dark energy waves. The problem with dark energy is that nobody knows its origin. 

"Detecting axions via gamma rays from a supernova could unlock the secrets of dark matter, with UC Berkeley researchers pushing for advanced telescopes to ensure we don’t miss this fleeting opportunity. Credit: SciTechDaily.com" (ScitechDaily, A Nearby Supernova Could Finally Solve the Dark Matter Puzzle)

In some models, dark energy is the thing that forms when a gravity wave collapses. The idea is that the gravity wave is the energy ditch or lower energy area that travels in the Higgs field. If a gravity wave faces some other energy wave that energy wave can fall into the energy ditch or gravity wave. And that thing makes the energy impulse through space and time. 

But then we can think of things like supernovas as the things that can confirm the weakly interacting massive particles, WIMP's existence. The major question is always can the WIMP exists, and the other thing is that. Can regular, or visible material turn into the WIMP? 

The model is that when the energy travels out from the material elementary particles can turn flat. And it's possible that those flat particles can rotate around its axle. That turns the WIMP look like a twisted rag. When energy fields hit those particles they form the energy vacuum or energy shadow around that particle. The quantum fields start to travel into that bubble when the distance of the object is far enough. The WIMP is a theoretical object. 

Things like supernova explosions that happen near Earth can uncover the mystery. But it's possible that we must wait for Betelgeuse to explode as a supernova before we can make those observations. 

https://scitechdaily.com/a-nearby-supernova-could-finally-solve-the-dark-matter-puzzle/

https://scitechdaily.com/quantum-leap-scientists-reveal-the-shape-of-a-single-photon-for-the-first-time/

https://scitechdaily.com/supermassive-black-holes-defy-physics-to-become-cosmic-titans/

Black holes paradox. Can gravity waves escape from them?

   Black holes paradox. Can gravity waves escape from them? 

Black hole paradox gravitational waves cannot escape from the black hole. But black holes send gravitational waves. And if those gravitational waves are not coming from the black hole, what is their source? Is there some other "yet unknown" radiation with different wavelengths that we cannot see? 

The black hole paradox is interesting. Gravity should not escape from a black hole's massive gravity field. But if that thing is true, the black hole should not be able to pull anything inside it, because gravitational interaction happens through gravity waves. So if gravity waves do not interact with particles they could not pull material into the gravitational field. 

The gravitational waves are traveling gravitational fields, and that means they can interact with gravity fields. Same way electromagnetic waves have their origin in electromagnetic fields. Electromagnetic fields can manipulate electromagnetic field's shape and strength. Same way gravity wave has the same wavelength as a gravity field. And that affects its strength and shape. 

Does gravity exist in the fourth dimension? 

The fact is that natural forces are the same in all dimensions. In theories, the dimension is energy level. Jumping into the fourth dimension could happen by increasing the object's energy level. When the energy level rises the object loses its ability to interact with other 3D particles. So when that particle cannot exchange information with other particles, it leaves left 3D world and jumps into the fourth dimension. 

At that moment particle will lost. The fourth dimension is like our universe. And all natural forces are the same as in our universe. The fourth dimension is at a higher energy level than our three-dimensional universe. That causes the theory that there are lots of extra dimensions above our universe. Because extra dimensions above our third dimension are at higher energy levels. That means those extra dimensions are smaller than our third dimension.  

The theory about extra dimensions tells us that extra dimensions are like our third dimension. But its energy level is much higher than our universe. The thing about extra dimensions is that they are smaller than our universe. And in some theories, there are other civilizations behind the event horizons. But we cannot prove anything.

The vaporization of the black holes, tells that there is energy that travels out from black holes. Fourth dimensions exist in our Universe in the form of black holes. We cannot imagine what those universes look like because we cannot see four-dimensional material and wave movement out from it. But if there is some other wave movement than gravitational waves that can escape from black holes, that wave movement is invisible to us.  

https://bigthink.com/starts-with-a-bang/gravity-extra-dimensions/

Black holes, the speed of light, and gravitational background are things that are connecting the universe.

 Black holes, the speed of light, and gravitational background are things that are connecting the universe. 

Black holes and gravitational waves: is black hole's singularity at so high energy level that energy travels in one direction in the form of a gravitational wave. 

We normally say that black holes do not send radiation. And we are wrong. Black holes send gravitational waves. Gravitational waves are wave movement or radiation. And that means the black holes are bright gravitational objects. 

If we can use water to illustrate the gravitational interaction we can say that gravitational waves push the surface tension out from the gravitational center. Then the other quantum fields push particles or objects into a black hole. The gravitational waves push energy out from the objects. And then the energy or quantum fields behind that object push them into the gravitational center. 

The elementary particles are quantum fields or whisk-looking structures. If the gravitational wave is an extremely thin string that travels through the particle it forms the electromagnetic shadow behind particles or those strings. Then the field that comes from backward will fill that electromagnetic low pressure or vacuum. And that thing pushes particles to the gravitational center. 

The reason, why high-energy particles are heavier is that gravitational interaction with those particles is stronger than low energy particles. Maybe, we can find the answer from the spin. High-energy particles have stronger spin than low-energy particles. And that means the fast-spinning particle has (virtually) a larger surface area where gravitational radiation affects than low energy particles. 

So the shadow behind the fast-spinning particle is stronger than slow slow-spinning particle. The idea is similar like we would spin whisk with different speeds. When the spin is slow, more light goes through the whisk. And if the spin is fast we see that thing as one entirety. Gravitation interacts straight with material or it interacts through the dark matter. But that thing has no meaning. 

When gravitation forms the shadow behind the particle it interacts like all other forces. The shadow or quantum low-pressure will turn deeper and deeper until the quantum field collapses it. And then, it pushes the particle forward to the gravitational center. 

So the gravitational radiation pushes the "bottom of the space" off. Then another wave movement with different wavelengths will try to replace gravitational radiation. The reason why black holes are vaporizing is that the singularity is so small that the outcoming radiation cannot touch it. 

Or otherways, singularity is so high-energy object that the gravitational waves, that it sends deny other radiation from touching it. And that means near singularity the black hole's heart's strong gravitational waves just push other wavelengths away. That means energy travels only one direction from the singularity causing vaporization of the black hole. 

When black holes are born in giant supernova explosions that event has so a high energy level that it sends extremely dense radiation waves around the universe. That radiation wave acts like a droplet that drops on water. It pushes all quantum fields away from the supernova and forms a quantum vacuum. 

Then those quantum fields fall into that vacuum. They form the "statue" the structure whose energy level is extremely high. And then that structure starts to fall. That statue is the thing that sends gravitational radiation. And that radiation is the thing that causes the vaporization of the black hole. So the thing that makes the black hole so powerful is the collapse of the statue, called singularity where wave movement and material is one entirety. 

That thing is one of the sources of the gravitational waves in the universe. When quantum fields are dropping in the quantum vacuum after the supernova explosion they form extremely dense objects called singularity. 

So gravitational waves are traveling out from the singularity and other radiation travels in opposite directions. And that thing means the gravitational radiation or gravitational wave movement has an extremely short wavelength. But also the "height" of the gravitational waves is low. That means the sender of that wave movement is small. 

The gravitational background in the universe can be one reason, why the speed of light is what it is. 

There are all kinds of radiation backgrounds in the universe. And one of them is the gravitational background. The gravitational background can be one of the reasons, why crossing the speed of light is so difficult. The idea is that the gravitational background makes denser and thinner areas in the universe. The changes in the density of the universe's material and radiation cause the situation. 

Where energy starts to travel out of particles at the critical moment just before it should travel through the "light wall". The gravitational background causes an effect where the radiation's density or strength is not constant. When an object crosses denser or more powerful points in the cosmic radiation background it harvests energy. And after that when a particle goes into an area where energy level is lower, that causes a situation where energy travels out from the object. 

Cosmic Web

In that model, the cosmic web is the thing that denies crossing the speed of light. The cosmic web is the largest known structure in the universe. It is the entirety where there are multiple substructures. So telescopes see only the cosmic web's largest parts. There are billions of substructures on the web. And the smallest of them are smaller than atoms. There is the suggestion that the cosmic web is forming around wormholes. 

That structure causes friction in the object. And the reason why friction limits speed is that energy starts to travel out from the particle. When we say that the event horizon allows us to cross the speed of light we oversimplify things. Beyond the event horizon, all objects travel with the same speed and the other thing is the massive gravity that stretches all objects. That means electrons and all other elementary particles turn into a thing that looks like tape. 

Black holes and the fourth dimension

  Black holes and the fourth dimension

There are many stories and hypotheses about the phenomenon called the fourth dimension. We could say that the fourth dimension is just the energy level where material stops interacting with visible material. That means hypothetical dark matter particles or WIMPs (Weakly Interacting Massive particles) are closer to the fourth dimension than visible particles. And the reason would be that WIMPs are higher energy particles than visible particles. 

In some stories, some kind of granite plate acts like a gate to the fourth dimension. If we want to make a model of this hypothetical material, we might think that it's the quantum material, where quantum-sized black holes. Are trapped in that material.

When somebody comes near that quantum wall, black holes pump energy into that object, and then the rising energy level cuts the connection between those particles and the third dimension. In some models, this material could be silicone or fullerene balls. And then energy will pump into particles trapped in those fullerene balls, and that turns them into quantum-size black holes.

There is a possibility that wormholes can explain ghosts.

In theories, information forms in the future, and then it focuses on the hyperspace of the present. At that point, the information interacts with that hyperspace, and that causes energy impulses through the hyperspace of the present.

Then information starts scattering again, and then it exists but we cannot reach it. There is a possibility that the focus point in the hyperspace of the present can turn longer than usual and form a channel called a wormhole through space and time. Those wormholes are acting like light cables. And they can bring information from the future to the past, or they can bring information from the past to the future.

We know that energy travels to lower levels in quantum systems. The wormhole requires a higher energy level on one side and a lower energy level on the other side to transport information. In the simplified model, a wormhole forms between superpositioned and entangled black holes. And there can be multiple layers in that hypothetical gravitational channel.

In some theories, angels are creatures that live in the fourth dimension. 

When energy travels through the wormhole, it reaches the point where it comes out. That point is called the white hole. That is a hypothetical point where the material that the black hole pulls in is released into the universe. It is possible. That the low-energy area around the wormhole could pull that thing open. So in some models, the black hole is the bubble in the wormhole.

The fact is that the black hole is a wormhole itself. The escape velocity of that object is higher than the speed of light. So the black hole transports information to the past. Aging stops at the speed of light. And if escaping velocity turns higher than the speed of light, that causes a situation where time moves backward.

A black hole can transport information backward in time only when it exists. The vaporization of a black hole begins immediately after it forms. And the existing time for small black holes is not very long.

When that material or information impacts the regular quantum field, it causes the quantum field to reflect that information into the future. The wormhole itself would be a quantum tornado. In wormhole is an electromagnetic vacuum ahead of the particle or object that travels through it. That electromagnetic vacuum pulls particles without resistance or quantum friction, and that makes the object travel through that channel at an extremely high speed.

Wormholes, or Einstein-Rose bridges, are hypothetical but almost proven channels through space and time. As has been written, there are two versions of the wormholes. And both of them allow time travel. When a particle or object travels through an electromagnetic wormhole, the radiation that presses on the object denies its vaporization.

Another version of the wormhole is the gravitational tunnel through space and time. The idea behind the gravitational wormhole is simple. When escape velocity crosses the speed of light, that causes a situation where time travels backward. And that means a black hole can take travelers back in time to the point where it formed.

The energy level of the universe was higher in the past, and forming the wormhole that transmits information into the past requires a situation where two points have opposite energy levels around them. The wormhole always transfers information from the higher energy level to the lower energy level. And if we think that at some point in a supernova explosion, a so-called white hole forms, we might think that the electromagnetic vacuum that forms just before material collapses is the point in spacetime when the white hole opens and material comes out of the wormhole. There is a possibility that things like ghosts are this kind of reflection.

https://www.sciencealert.com/physicists-just-figured-out-how-wormholes-could-enable-time-travel

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

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

What happens when a black hole is forming?

When a supernova explosion happens. The shockwave starts to travel out from the star. A Supernova explosion is a case where fusion fills the entire star during that process. Energy impacts the middle of the supernova with enormous power. The shockwave forms an electromagnetic vacuum. So we could say that the supernova is like a giant vacuum bomb. 

And when the power of that shockwave decreases the electromagnetic vacuum around the nucleus of the star starts to fill. At least in this stage in the supernova explosion energy that drops in that electromagnetic vacuum smashes against the material that is in the middle of the star. The energy impact smashes electrons in the atom's nucleus. 

And if that impact is powerful enough it just smashes all elementary particles, quarks, and electrons into one entirety called a singularity. That material is extremely thick. And when some kind of electromagnetic radiation impacts that thing, that radiation reflects from the object. 

That reflection causes things where the gravitational waves are traveling out from the black hole's nucleus. If the reflection happens in very short periods. The vacuum between those power fields has no time to fill. That thing causes the case that simultaneously repeating vacuums are starting to pull objects inside that thing. And when objects reach the black hole's nucleus. They reflect from the nucleus. The thing that sends gravitational waves can be some kind of superstring. 

Black holes are like potholes in the universe. Whenever a black hole sends a gravitational wave against another energy wave that travels in it the impacting energy wave loses the energy of falling waves and material. So the energy level of radiation that impacts the black hole's nucleus is always lower. And that causes a situation that the black hole loses its mass. 

Those supermassive objects interact with their environment. Outcoming radiation keeps a black hole or its event horizon in form. If the radiation that falls in the black hole ends nothing limits the expansion of the black hole. But because the black hole will not get more energy, it will turn lighter. Gravitational waves are forming similar forms as other materials and magnetic fields. When the expansion of the gravitational field is unlimited. That turns its energy level lower. That causes the explosion of the black hole. 

Also if a black hole's mass is too high that causes a situation the impact of falling energy or wave movements is too strong. That thing destroys the black hole. Inside the black hole, its nucleus rotates at an extremely high speed. The speed of that point is about the speed of light. That thing causes high power interaction between internal structure and gas that is falling into the black hole. And there is a small vacuum in that absolute ball. 

That vacuum can be smaller than a quark. That vacuum pulls the nucleus inside. So the internal vacuum and outcoming energy are keeping singularity in the form. When the reflection starts from the nucleus of the black hole it's in a vacuum for a short moment. If there is no internal structure that pulls the singularity inside. There is the possibility that it destroys the singularity. 

https://astronomyandtechnology.blogspot.com/

New evidence: black holes are the source of dark energy

Black holes are candidates for a source of dark energy. Dark energy is the free energy or wave movement that rips the universe into pieces. And the thing that makes dark energy mysterious is that there seem no sources for that wave movement.  

Sometimes introduced that dark energy is the gravitational maser effect where crossing gravitational waves interact with other particles. And that causes the mysterious wave movement. At this point, I must say that those particles can be virtual. The virtual particle can be the whirl or wave in the gravitational- or some other wave movement. 

The thing that makes dark energy interesting is if its source is in black holes. That could mean that the secret of antigravitation can hide in the dark energy. 

Sometimes antigravitation is described as oppositely acting gravitational wave movement. And that makes the dark energy interesting. 

In some gravitational models, gravitation is formed when three quantum fields around the quarks cross each other. That thing forms the electromagnetic tornado. In that model, the gravitational tornado is electromagnetic low-pressure. And that pulls the particles or objects to each other. 

The idea of antigravitation is simple. The model of gravitational waves is that gravitation is radiation. And if those gravitational rays are hollow that forms electromagnetic low-pressure in that gravitational ray or channel. And those hollow radiation channels form the tornado-shaped radiation form where electromagnetic wave movement acts like a tornado. 

The source of antigravitation or pushing gravitation can be:

In the middle of the gravitational channel. 

Or at the edge of the gravitational channel. 

So what is antigravitation? 

Antigravitation is the effect where the repelling effect of the gravitational wave channel turns stronger than the pulling effect. The gravitational tornado sends gravitational waves from its edges. Gravitational waves are electromagnetic wave movements just like X- or gamma-rays. So if the gravitational whirl rotates at too high a speed that makes the pushing gravitational effect stronger than an electromagnetic vacuum can pull. 

One way to make antigravitation could be by sending some particles through those gravitational tornadoes. And that thing makes them repel objects. Or in some other models, if the speed of that whirl-shaped wave movement is high enough, that thing makes gravitational tornado pushing. In the last model, the gravitational tornado turns so small that the energy that travels from its edge turns stronger than electromagnetic low pressure in that electromagnetic tornado. 

It's the gravitational wave statue or small-size gravitational tornado where the interaction between the walls or edge of that tornado is stronger than the pulling effect of the electromagnetic low-pressure. 

In that model, the gravitation pushes and pulls at the same time. Gravitation is like a channel where is the shell that forming of superstrings (or extremely thin wave movement bites). 

The ratio of the inside of the channel to its edge determines does that gravitational tornado pull or pushes. If the edge is larger, or its energy level is so high that electromagnetic low-pressure cannot repeal it that makes gravitation push.  In that model, the antigravitation forms at the gravitational tornado's edge. 

https://scitechdaily.com/cosmological-coupling-new-evidence-points-to-black-holes-as-source-of-dark-energy/

https://shorttextsofoldscholars.blogspot.com/

Why are black holes twinkling?

The mystery of black holes is why they twinkle. Why black holes don't send gravitational waves all the time? That is one of the most interesting things about black holes. Black holes are extreme objects in the universe. And they should be stable. But there are moments when they send stronger gravitational waves than otherwise. 

There is the possibility that those twinkles are the reason for the case that black holes are sometimes in an electromagnetic vacuum. And the reason for that is that black hole pulls mass too fast. That thing causes an effect that black hole starts to send that radiation. 

But there is the possibility that there are particle pairs in the black hole. Those particle pairs form warp channels. Gravitational waves travel in those channels. 

In that model, there is the possibility that the gravitational waves that we can observe are forming when those particle pairs are orbiting each other. Those particle pairs act as the antennas that send gravitational pikes outside the black hole. 

Or maybe there is some kind of WARP bubbles or points where gravitational strings inside the black hole are not connecting. That makes the gravitational vacuum points in the black hole. And those vacuum points are causing a situation that the gravitational waves in the black hole are not following spiral tracks.

When those gravitational waves are touching each other in the black hole. That can cause the situation. There the Schwinger effect forms particle pairs. That means those particle pairs could be mysterious gravitons. If there is a gravitational tornado inside the black hole. 

The other gravitational waves are giving radiation emission to that tornado. That gives more power to that standing wave. That could explain why the black hole could send radiation pikes from its poles. The question is what is the point, where those waves are leaving? Is the source of the radiation that a black hole sends behind or at the front of the event horizon. 

The X- and gamma-ray impulses in the black hole's poles are causing questions about the speed of light in the black hole. Do researchers also hope that black holes give answers for the things like how many dimensions there are? Are there three in time and one in material? 

And maybe black holes are telling someday what is the form of time. Is time for some kind of wave movement that takes bites from the superstrings that are forming material? Or is time only part of the material? 

https://www.sciencealert.com/astronomers-studied-more-than-5000-black-holes-to-figure-out-why-they-twinkle

https://shorttextsofoldscholars.blogspot.com/

Casimir effect and vacuum energy are not forming energy from anything. They just increase the power of wave movement

The cone on the top of the text introduces the universe's expansion. But in this text, the purpose of that image is to demonstrate the vacuum energy model. The idea is that wave movement or energy starts to fall in the minimum energy point. 

That is in the middle of the system. So that point is like a pothole, and because all systems are trying to reach energy stability, that energy pothole makes energy or information fall in it. 

There is a minimum energy point in an electromagnetic field. And that causes energy starts to travel to that minimum energy point. The system can collect that energy by putting an antenna, like disk shape structure in that wave movement. 

There is the possibility to create the laser ray that forms this kind of situation. The laser shoots electron cores away from atoms that are in that disk. And that causes that energy starts to travel at that point. The system collects that energy which travels through that plate. 

But that energy system must make more energy than it uses. The idea is that an antenna or system just collects more energy from its environment than it uses. 

"Casimir forces on parallel plates" (Wikipedia/Casimir effect)

Casimir effect and vacuum energy are not forming energy from anything. They just rise the strength of the wave movement. Vacuum energy means the situation where energy or wave movement is traveling through an antenna, and that antenna turns that thing into electricity. Sometimes the vacuum energy means the wave movement that is shot through the standing wave movement. That has the same frequency. 

The requirement for the Casimir effect is that the plates are very close to each other. The distance between two plates must be smaller than the size of atoms. The thing that forms the Casimir effect is the wave movement or standing wave movement that is between those plates. The Casimir effect means that the electron's or wave movement's energy level will rise when it travels through that standing wave movement.   

Sometimes misunderstand the so-called Casimir effect of energy from nothingness. Casimir effect is not making energy from emptiness. The idea of the Casimir effect is that electrons travel between plates that are extremely close to each other. When an electron jumps to a vacuum between those plates. It just harvests an electromagnetic field with it. When an electron travels across the electromagnetic field between those "Casimir plates" it loads energy from those fields into itself. 

Or otherwise saying the quantum field is touching the electron. The Casimir effect could be a very interesting tool in radio communication and energy production. But the problem is that effect is possible only in the superconducting conditions. In the description of the Casimir effect is told that an electron forms a virtual particle when it travels between those Casimir plates. 

The virtual particle forms when the electron's energy level rises when that quantum field loads energy into it. When an electron is coming closer to receiving plate it releases that extra energy as radiation or photon. So Casimir effect is a multilevel phenomenon. That is possible between superconducting plates that are extremely close to each other. But a similar effect is seen between electrons and other particles. The fact is that information can travel also between electrons. In that case, another electron's energy level must be higher than the other. And that causes the wave motion to transfer to another electron. 

Near black holes, wave movement that comes outside the transition disk and travels through it rises the material's energy level around the black hole to intensive temperature along with friction. So the effect is similar to zero-point or vacuum energy. 

Vacuum energy is also sometimes misunderstood. Sometimes black holes are also a synonym for vacuum energy. Or the gravitational effect of black holes is forming a situation where wave movement travels through the transition disk and rises its temperature to an extremely high level. 

The idea of vacuum energy is that there is a hole or low-pressure (minimum energy level) area in an electromagnetic field. That low-pressure hole in the electromagnetic field causes electromagnetic radiation or wave movement starts to travel in that hole. It's possible. Electromagnetic black holes can form a similar effect. An electromagnetic black hole is a case where energy starts to travel at a certain point. 

In some visions, a laser ray, that shot through the plate-shaped structure could make an electromagnetic black hole. The idea is that the laser ray shoots electron cores away from atoms. And that thing creates a situation where energy starts to travel to that electromagnetic effect through the plate. So the plate collects the energy that is traveling to that extremely electronegative point in the middle of the plate. 

The idea is like an electron-hole. When the energy level of an electron at the front of the wire rises it starts to transmit wave movement or energy to the wire. Theoretically, electron holes can use to create energy. The problem is that to create energy economical. The electron hole must be far larger than it is in electric wires. If we want to make the electron-hole generator we must just create an electric wire or antenna that is at a lower energy level than its environment, and then the energy starts to travel to that antenna. 

https://differentimpulse.com/quantum-vacuum-less-than-zero-energy/

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

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

https://en.wikipedia.org/wiki/Zero-point_energy

https://shorttextsofoldscholars.blogspot.com/