Could event horizon transform gravitational waves into electromagnetic wave movement?

   Could event horizon transform gravitational waves into electromagnetic wave movement? 

The event horizon of the black hole is the point where there is no return. After that, the particle must travel faster than the speed of light. And that thing is impossible. When we think that the event horizon is the extremely powerful Van Allen belt and the particles that fall through it interact with high-energy particles that are orbiting singularity in that point, we must understand that this point could be the X- and gamma-ray radiation source. 

Or if we think that the gravitational and magnetic fields look similar. But they are at different energy levels. That thing makes it possible. That there is a hole in the event horizon or black hole's gravitational field. 

The gravitational waves are interacting with each other. That interaction means that if there is a donut-shaped standing gravitational wave at the point of the event horizon. That standing gravitational wave can pull other gravitational waves out from the internal structures in the black hole's event horizon. 

"When black holes collide, they produce gravitational waves detectable on Earth. Although theorized by Einstein in 1916, they were not directly observed until 2015. Modern research contrasts older models with new data, revealing that these waves do interact. This knowledge refines our models and challenges the full scope of general relativity in explaining black hole properties". (ScitechDaily.com/Ripples in Spacetime: Unraveling the Secrets of Gravitational Waves)

That means. There could be a stronger gravitational area at the black hole's event horizon's outer shell at the point where the acceleration disk falls in the black hole. At that point, the acceleration disk sends wave movement to the point of the event horizon. And that makes this hypothetical gravitational wheel possible. At that point particles that orbit singularity are at higher energy levels than other places in the event horizon. 

In that case, there is a possibility, that a black hole pulls wave movement and particles to impact course with particles. That is trapped in the event horizon or the point where escaping velocity reaches the speed of light. This impact can cause a similar effect with solar wind or particles that impact plasma trapped in the Van Allen belt.  

The event horizon could be like a more powerful version of the sonic whirl. In the event horizon, the speed of particles is the minimum speed of light. Below it, the photons and all other particles travel at the same speed, which is higher than the speed of light outside the event horizon. 

But if a particle orbits singularity precisely at the point of the event horizon the incoming gravitational waves may impact with particles or superstrings. And that thing loads energy to them. In that position, the speed and energy levels of the impacting particles are much higher than in sonic whirls or Van Allen plasma belts. 

So, could it be possible that the particle, trapped in the point of the event horizon can transform gravitational waves' wavelength into electromagnetic radiation? 

The position where gamma- and X-ray bursts leave from the black hole is interesting because it can open a route to the new world. Black holes can trap particles and superstrings in the event horizon. And it's possible that if some wave movement or superstring impacts with superstring or particle in the event horizon. That thing can turn the wave movements wave length from, for example, gravitational waves to electromagnetic waves. 

This means that. The event horizon or superstrings that travel in it could turn the gravitational waves straight to electromagnetic wave movement. The idea is that the superstrings that travel to the point of the event horizon will just jump up from that point when gravitational waves from inside the black hole impact it. That impact raises the superstring just out from the point of the event horizon. 

https://scitechdaily.com/ripples-in-spacetime-unraveling-the-secrets-of-gravitational-waves/

Gravitation has been the thing that allows to transport of information between two quantum worlds.

 Gravitation has been the thing that allows to transport of information between two quantum worlds. 

"Rice University physicists, in a study led by Qimiao Si, have bridged two quantum physics subfields by demonstrating that specific unchangeable topological states, crucial for quantum computing, can intertwine with alterable quantum states in certain materials. This discovery enables potential operations at significantly higher temperatures, offering immense functional promise." ( ScitechDaily.com/ Unraveling Quantum Secrets: Physicists Bridge Two Quantum Worlds)

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Could this be the model of quantum gravity? 

In that model, the quantum gravity forms when energy or wave movement is called "superstring". The reason why that superstring causes a gravitational effect is that it hits a particle. Two ways can make the pulling effect of that superstring. First, the superstring can form a lower energy area at the front of the particle. 

A) The superstring can transport energy into itself. That thing causes an effect where gravity pulls particles to the dominating center. 

B) The superstring can send energy waves to that quantum field. The energy travels over the particle's shell, and then it will travel backward of the particle. Then that wave movement acts like a rocket engine that pushes particles forward. 

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Doubling or multiplying quantum fields or subfields makes it possible to transport information between two quantum worlds. 

A quantum field or quantum halo surrounds every single particle in the universe. The quantum gravity is the asymmetry in that halo. The thing that can make information exchange between two particles possible and determine the direction where information flows is the "brightness" or the quantum field's size. Information always travels from a higher-energy object to a lower-energy object. 

When wave movement like gravitational waves travel between particles they transport information. When we think of the quantum halo or quantum fields around particles they are not homogenous. That means there are layers in those quantum fields. Those layers are so-called subfields. The system can also double subfields. In that case, doubling happens from inside to outside. If the resonance in that subfield is strong enough, that shakes the particle's shell. 

And that allows to transport of information between two different size particles or quantum states or quantum worlds. The reason that thing is hard to make is this: the quantum field around the particle acts like an atmosphere. The most distant layers from the core are at the low energy level. Or they are "thin". That means it's hard to raise the energy level in that particle so high that the resonance travels from the primary particle. Through the other particle's quantum field and reach the particle's nucleus. 

The information is also one name for energy. Information is also wave movement.  In the theoretical particle model, the superstring is the smallest or thinnest part of wave movement. 

Material is the stretched or ball-shaped form of superstrings. The ability to transport information between two quantum worlds means that the system can transport information between two or more quantum layers. 

Four fundamental interactions, strong nuclear interaction, weak nuclear interaction, electromagnetism, and gravitation are wave movements with different wavelengths. The sender of those waves is the transportation particle that transports the fundamental force. The photon can turn flat. And that thing gives photon particle and wave movement forms. 

So the ability to exchange information between quantum worlds makes it possible for the strong nuclear interaction can transform straight to electromagnetism. In that model, the strong nuclear interaction's wave movement will just transfer to the electromagnetic wave movement that has a longer wavelength than the strong nuclear interaction. 

In that model, the system connects electromagnetism with strong nuclear interaction. And theoretically, that can done by gluing the strong nuclear force's waves into electromagnetic waves.  However, practical solutions are more complicated than this model. 

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The gravitational interaction is the only interaction that is common for all particles. 

In some models, quantum gravitation is the hole or pothole in those quantum fields. That pothole pulls the quantum field from another particle to it. And that thing forms the energy channel that sends wave movement from the dominating particle to the recessive particle. And that wave movement is what travels to the recessive particle and sends wave movement that causes resonation in that recessive particle. 

That resonation travels from the point. Where that energy string impacts with particles through its shell. Then that wave movement travels back to the particle and acts like a jet- or rocket engine that pushes the particle forward. That interaction is quantum gravity. And other ways we can say: that those dominating and recessive particles exchange information. The thing that determines is particle dominating, or recessive is the size of that particle and its quantum field. 

The ability to transport information between two quantum worlds is a useful phenomenon for quantum computing. But it's much more than just quantum computing. The ability to transform strong nuclear interaction straight to electromagnetism causes interesting visions for the energy production of tomorrow. 

And that thing can exchange information between two quantum states or quantum forms. That thing makes it possible to transport information between binary and quantum computers. But that thing can make much more. The ability to transport information between two quantum worlds forms in effect, that doubles the quantum fields around particles. Doubling quantum fields is the thing, that makes it possible to transport information between different types of particles. 

Singularity and its physical shape are interesting things.

    Singularity and its physical shape are interesting things.

"Once you cross the threshold to form a black hole, everything inside the event horizon crunches down to a singularity that is, at most, one-dimensional. No 3D structures can survive intact. However, one interesting coordinate transformation shows that every point in the interior of this black hole maps 1-to-1 with a point on the outside, raising the mathematically interesting possibility that the interior of each black hole gives rise to a baby universe inside of it, and the possibility that our Universe itself may have arisen from a black hole in a pre-existing universe prior to our own". (BigThink/Ask Ethan: Are singularities physically real?)

When we think about the singularity and its shape. That is the point. Where time, material, and space are as an entirety. And that's why it's hard to model that point. It's hard to think that time is part of something or it's in something. 

Time affects singularity as it affects all other material. And the thing that forms that thing is the "super fusion" that smashes all particles in a certain space into one entirety. That pushes quarks, gluons, and electrons together forming an extremely high energy level. That energy forms when all four fundamental forces interact at the same time.

 Or at least three nuclear forces,  strong and weak nuclear interactions, with electromagnetism take part in that reaction. The energy level in singularity is higher than in all other materials because so many fundamental interactions participate in its forming. Material is one form of energy and that reaction packs very much energy to singularity. That means singularity exists longer than regular material.

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"Both inside and outside the event horizon of a Schwarzschild black hole, space flows like either a moving walkway or a waterfall, depending on how you want to visualize it. At the event horizon, even if you ran (or swam) at the speed of light, there would be no overcoming the flow of spacetime, which drags you into the singularity at the center. Outside the event horizon, though, other forces (like electromagnetism) can frequently overcome the pull of gravity, causing even infalling matter to escape." (BigThink/Ask Ethan: Are singularities physically real?)"

You can see in the first animation that material and energy (wave movement) fall into a black hole. So they must reflect from the center of that object. That means a black hole is like a giant gravitational version of the vacuum explosive. It sends gravitational waves or gravitational radiation. And that radiation causes a vacuum that pulls other quantum fields and particles into the black hole. In the second image is the hypothetical case the gravitational field, along with other energy fields turns into a rope-shaped form in the rotation axle of the black hole. 

"In the vicinity of a black hole, space flows like either a moving walkway or a waterfall, depending on how you want to visualize it. Unlike in the non-rotating case, the event horizon splits into two, while the central singularity gets stretched out into a one-dimensional ring. Nobody knows what occurs at the central singularity, but its presence and existence cannot be avoided with our current understanding of physics." (BigThink/Ask Ethan: Are singularities physically real?)

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Image: Credit: E. Siegel/Beyond the Galaxy

"As a balloon inflates, any coins glued to its surface will appear to recede away from one another, with ‘more distant’ coins receding more rapidly than the less distant ones. Any light will redshift, as its wavelength ‘stretches’ to longer values as the balloon’s fabric expands. This visualization solidly explains cosmological redshift within the context of the expanding Universe. If the Universe is expanding today, that means it was smaller, hotter, and denser in the past: leading to the picture of the hot Big Bang."(BigThink/Ask Ethan: Are singularities physically real?)

The balloon. That introduces the expansion of the universe. We see that the distance of the points increases. And that means interaction between them is becoming weaker. Or is it so? Relative distances between those coins are the same if they also expand with the universe. Also when the universe expands the disturbing quantum fields between objects turn weaker. The model says that when quantum fields in the universe turn weaker because there is no outcoming energy. That increases the size of the particles. 

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But when it will not get more energy from the transition disk the black hole starts to vaporize. In some models, the energy and material that fall into the black hole do not reach the singularity that is the nucleus of a black hole. In those models, the singularity itself is in electromagnetic low pressure and that thing causes the vaporization. 

And that could be the reason for gravitational waves. that are leaving from black hole. The question is: do those gravitational waves come from the singularity or the event horizon? The fast-spinning singularity can form a standing gravitational wave around it. That could pull the gravitational field out from the nucleus of a black hole. 

In some models, the event horizon is like a gravitational version of the Van Allen belt. It can trap particles in it. And when those particles rotate singularity radiation that travels through the event horizon pumps energy to them. So there may be a hole in the event horizon. That hole forms when the core or nucleus of the black hole sends coherent gravitational waves to the event horizon. And then that thing means that there may be no gravitational field at the poles where the radiation beam leaves a black hole. 

When material falls in a black hole singularity loads energy to it. That thing is called the curvature of spacetime. The curvature of spacetime means that the quantum fields are thicker near the black hole. And that effect slows time, or otherways saying: causes time dilation. When material travels through the event horizon time starts to travel backward. And that means material should come out from a black hole at the moment when it formed. 

The energy that a black hole gets, when it forms after the supernova explosion makes that material super heavy. So singularity is so high energy level material that its energy level is higher than all other material in the universe. It's packed energy that sends energy waves through space and time. 

We can think of a situation like this. The singularity sends radiation monotonously. So because one frequency of radiation travels out from the gravitational center, that causes a situation where other quantum fields that is the common name for multiple power fields in the universe are falling into a black hole.  

The animation shows that the singularity packs that wave movement into a form, that looks like rope. And then that radiation beam that could be gravitational waves and high-energy electromagnetic radiation travels out from the black hole's poles. 

In normal energy production situations like in nuclear fission the weak nuclear interaction alone makes energy. Or rather saying, nuclear fission just releases energy. That is stored in the form of material. In annihilation, only strong nuclear interaction takes part in the reaction. The thing that forms singularity is a little bit like nuclear fusion. 

When a supernova explosion happens it pushes quantum fields away. Then the quantum fields drop back into that vacuum and press all particles into their entirety. During that process, their quantum fields are impacted. And then the singularity starts to rotate or spin. 

Singularity may have two spin axles. The axle between magnetic poles. And equatorial axle. And that thing forms the acceleration disk and X- or gamma-ray beam. The spin of the black hole is required for wormholes. And the whirl around them proves that black holes are spinning. 

https://bigthink.com/starts-with-a-bang/singularities-physically-real/

Soundwaves can control light.

  Soundwaves can control light.

Soundwaves can control light. And that makes them new tools for making photonic computers. Soundwave is the denser point in the air. All changes in gas and other materials' density form a border layer. And that kind of border layers are changing the light's direction. 

Same way, the atmosphere around planets changes the direction of photons. If researchers make a chamber where there is gas and then aim the extremely sharp loudspeakers at that gas those soundwaves can aim laser rays in the desired direction. And that thing makes it possible to create a router. That aims laser rays into the wanted route. 

"A laser light beam passes between a loudspeaker-reflector array that creates a grating of air. The laser beam interacts with this grating and is deflected without contact. Credit: Science Communication Lab for DESY" (ScitechDaily.com/Sound Controls Light: Deflecting Laser Beams Using Air)

But laser light interacts oppositely way. When laser light hits medium it pumps energy to it. That energy makes atoms oscillate, and then that oscillation will travel all over the system. So when laser ray hits liquid like water it expands it. That expansion is the soundwave that can be used as sonar or even as a weapon. 

The laser can make a loudspeaker that uses liquids. When a laser ray hits liquid between membranes it expands that material. And that expansion is heard as soundwaves. 

When a laser satellite sends a laser ray to water or any other medium that thing sends sound waves. And other laser points around that center laser can observe that soundwave and its reflections. That thing makes it possible to search underwater and underground objects.  If the laser ray is strong enough it forms a similar situation with depth charge. 

"An intense laser pulse (in red) hits a flow of water molecules, inducing an ultrafast dynamics of the electrons in the liquid. Credit: Joerg M. Harms / MPSD" (ScitechDaily.com/Intense Lasers Illuminate the Hidden World of Electron Dynamics in Liquids)

Laser engine. 

The laser engine uses a liquid that is in the chamber. When a laser ray hits that liquid it expands it. And that expansion can push the piston down. In this case, the system can cool the liquid in the piston chamber if it is cooler with enough power. 

Or it can drive liquid or vapor from one chamber to another and rotate the turbine wheel in the channel between those chambers. Then that liquid can be cooled. And recycle in the system. 

The liquid can be liquid helium or nitrogen and the laser ray can interact with that liquid indirectly. In the non-direct version laser rays (or microwaves and electric arcs) are aimed into the expansion chamber. That warms the chamber's wall. 

That makes it possible to create the cold steam engine. This kind of system can operate without electricity if it has liquid nitrogen or helium. When that gas is in an expansion chamber there is no heat insulation. When it's at room temperature, the gas starts to expand. 

Lasers can increase the temperatures of some other objects like metal powder. Then that metal powder will drop into the chamber there is that ultra-cold liquid. 

That causes the expansion that can be used in turbine or piston engines. After that, the system can pull those metal bites with magnets to re-use. 

https://scitechdaily.com/intense-lasers-illuminate-the-hidden-world-of-electron-dynamics-in-liquids/

https://scitechdaily.com/sound-controls-light-deflecting-laser-beams-using-air/

Mysterious quasars.

  Mysterious quasars. 

"Artist's rendering of the accretion disc in ULAS J1120+0641, a very distant quasar powered by a supermassive black hole with a mass two billion times that of the Sun."(Wikipedia/quasar)

"Bright halos around 18 distant quasars"(Wikipedia/quasar)

Virtual redshift, where a strong gravity field elongates light waves, can make a quasar seem to be at a longer distance than it is. 

Quasars are "star-like objects" whose diameter is only a couple of light years. Those objects form as much energy as entire spiral galaxies, and they form around supermassive black holes. That means a quasar is a protogalaxy that can turn into a spiral galaxy. And actually, the galaxy nucleus is a quasar.

But, if the mass of the black hole is high enough and the material around it is thin, there is the possibility that the black hole pulls all material from around it. And then that thing makes this type of roque black hole hard to detect. 

"Gravitationally lensed quasar HE 1104-1805" (Wikipedia/Quasar) Are those black holes superpositioned and entangled?

"Hubble images of quasar 3C 273. At right, a coronagraph is used to block the quasar's light, making it easier to detect the surrounding host galaxy." (Wikipedia,quasar)

Researchers say that the distance to quasars is enormous. But the fact is that the black holes elongate light waves. And that means the virtual redshift can cause an effect that quasars are at longer distances. The gravitation affects redshift like this. The stronger gravitational field elongates lightwaves more than the weak gravitational field. That means the massive objects seem to be at longer distances than lightweight objects. 

Then they are. And the reason for that is gravity pulls light waves longer. And that means the spectral lines travel more to the red than they otherwise should. Virtual redshift means that the black hole seems to be a longer distance than it is. 

"A cosmic mirage known as the Einstein Cross. Four apparent images are actually from the same quasar." (Wikiepedia/quasar)

"Sloan Digital Sky Survey image of quasar 3C 273, illustrating the object's star-like appearance. The quasar's jet can be seen extending downward and to the right from the quasar". (Wikipedia,Quasar)

The shape of the spin of black holes could explain why there is so much energy in quasars. In theories, there are two spin axles in a black hole. Those axles would be in the "X" shaped form. 

The shape of the spin of black holes could explain why there is so much energy in quasars. The idea is that the energy that makes a quasar shine at an energy level that is as high as a galaxy comes from the black hole's acceleration disk. Why acceleration disk is hotter than it should? There is a possibility that there are whirls in that acceleration disk. And the reason for that could be that the black hole spins around two axles. 

Those axles would be polar and equatorial. The equatorial axre would send the radiation beam to the point, that we think is the black hole's poles. Then the poles and polar spin happen around the equatorial axle. That means the black hole's spin axles are in an "X"-shape position. 

"The Chandra X-ray image is of the quasar PKS 1127-145, a highly luminous source of X-rays and visible light about 10 billion light-years from Earth. An enormous X-ray jet extends at least a million light-years from the quasar. Image is 60 arcseconds on a side. RA 11h 30m 7.10s Dec −14° 49' 27" in Crater. Observation date: May 28, 2000. Instrument: ACIS" (Wikipedia/Quasar)

"Quasars in interacting galaxie(Wikipedia/Quasar)

The polar spin makes a strong electromagnetic effect inside the event horizon. And that thing can make the energy impulses to the acceleration disk. Those energy impulses can make whirls in the acceleration disk. Those whirls make friction in the disk and raise its energy level. 

But that interaction is more complicated, than just energy that travels out from transition disks. The black hole causes whirls in quasars and those whirls increase their energy level because friction in gas and dust increases the energy level in the material that surrounds the supermassive black hole that might be formed when gas and dust nebula falls because of its gravity. 

Then those supermassive black holes pull gas and dust around them. The thing that makes quasars interesting is that they formed outside galaxies. And then those objects turn into spiral galaxies.

Quasars are objects, that form around black holes, and their luminosity is much higher than galaxies. The size of quasars is smaller than galaxies, and sometimes researchers introduce that quasars are protogalaxies. The galaxies would form later around those extremely bright objects. 

https://scitechdaily.com/from-quasars-to-black-holes-spectral-energy-puts-established-theories-in-question/

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

Quasars, Planet X and gravity model.

   

Quasars, Planet X and gravity model. 

Could gravity be two forces? One with long and another with extremely short wavelength. 

In some models, the gravitation is two forces. Another gravitation is radiation with extremely long wavelengths. That gravitational wave is behind the radio waves. And the other gravitational waves have extremely short wavelengths. So they are behind gamma rays. That thing could explain why gravitation is so hard to model. 

Short-wave gravitation has a shorter wavelength than gamma rays

Long-wave gravitation has a longer wavelength than radio rays. 

If this model is right all particles inside atoms send gravitational waves. If gravitational waves have the same wavelength and same energy level they form standing waves in the atoms or between subatomic particles. That thing causes reflection in those gravitational waves because they interact the same way as all other wave movements. And in that case, the gravitational waves are turning opposite. 

If only long-wave gravitational waves can travel through subatomic particles that travel around them. This thing forms an electromagnetic or gravitational shadow behind that particle. And that shadow pulls particles backward. That means the long-wave gravitation is the thing that is called antigravity. 

The short-wave gravitation travels through particles. When it impacts the back wall of subatomic particles inside them it sends wave movement backward. And that backward traveling wave movement pushes particles forward to the gravitational center. That explains why gravitation is so special. So, at the quantum level, gravitation just breaks material. 

Another gravitational force is the extremely shortwave radiation that the source is between gluons and quarks. Another gravitation is the weakness in electromagnetic or quantum fields inside subatomic particles. That weakness in quantum fields is the electromagnetic low pressure that pulls objects into it. 

The gravitational interaction is simple. The gravitational waves form electromagnetic low pressure in the front of the particles. That thing means that gravitation interacts wrong direction. So if gravitation is two forces that could explain something about that mysterious phenomenon. In that model, gravitation is like wire or superstring that travels through particles. Particles are like pearls in necklaces. And that wave travels through those particles. During that process, the string pushes the particle in the opposite direction. 

If we think that the quantum particle is like warped or stretched paper the gravitational interaction pushes that structure. Then the particle sends radiation or wave movement backward. Another long-wave gravitation might travel sideways of the particle. And that thing makes the electromagnetic shadow behind the particle. So that means the gravitational waves with long wavelengths are the thing that pushes particles. The electromagnetic shadow pulls particles backward. 

So: 

Long-wave gravitation pushes particles

Short wave gravitation pulls particles. 

When I write that the elementary particle is like a yarn-ball I should write that elementary particle is like a yarn-ball that formed of stretched or warped superstrings. The warped superstring turns into a ball form in electromagnetic fields. 

"An artist’s impression of a Kuiper Belt object (KBO), located on the outer rim of our solar system at a staggering distance of 4 billion miles from the sun. Credit: NASA, ESA, and G. Bacon (STScI)" (ScitechDaily/Modified Newtonian Dynamics: Is the Ninth Planet Hunt Revealing a New Law of Gravity?)

Planet X, or Ninth Planet tests gravitational theories. 

The name or term Planet X means a gravitational effect that causes an anomaly in Netune's trajectory. 

The problem with Planet X is it's invisible. But the gravitational effect that causes anomalies in Neptune's trajectory is real. There is some kind of lumb of invisible material in the Kuiper belt. And the problem with this lumb is that it could cause some denser points in the Kuiper belt. But there is no that kind of point. And that makes Planet X so interesting. Planet X is not confirmed, but astronomers call the mysterious gravitational effect that causes anomalies in Neptune's trajectory Planet X. 

Another mysterious thing is the X-ray flares in Uranus' atmosphere. Those X-ray flares form when some field accelerates particles that impact the Uranus' atmosphere forming X-ray flares. Some researchers think that Planet X is full of dark matter. If that lump of dark matter exists. Its only interaction with material is gravitational. If a particle goes in the dark matter glump's gravitational field it should follow the same trajectory that material follows when it falls into a black hole. 

"Artist's rendering of the accretion disc in ULAS J1120+0641, a very distant quasar powered by a supermassive black hole with a mass two billion times that of the Sun." (Wikipedia/Quasar)

Acceleration disks and anomalies in spectral energy in quasars help to understand gravitation and its interaction with other fundamental forces. 

The acceleration disk around black holes is full of extremely high-density energy. Black holes pull all material inside it. And there is also dark matter that falls in the monstrous gravitational fields. The acceleration disk will not end in the event horizon. The event horizon is the point where escaping velocity turns higher than the speed of light.  

When material falls through the event horizon it continues a spiral trajectory to the center of a black hole. At some point in that journey is the point, that dark matter interacts with visible material. That point is at least singularity in the center of a black hole. The reason for that is extremely powerful gravitation that pulls material and energy into entirety called singularity. 

Some quasar's luminosity and spectral energy levels don't match with its brightness. Researchers suspect that the reason for that energy anomaly is some wind or some other anomalous material flow in acceleration or transition disk. That model explains that the anomaly in spectral energy comes from some whirls in the acceleration disk. That thing explains the high energy level in quasars as the parasite black holes that form in acceleration disks. The energy level in that material disk is extremely high. 

And the energy may turn some small objects like asteroids or planets that fall through them into black holes. If those parasite black holes exist they send radiation beams to material around the black hole. And they might increase the energy level in the entire quasar. When those small black holes fall into bigger black holes that causes gravitational waves around the universe. 

So if something makes a whirl in that material the whirl may turn to a black hole. Or it can make extra friction in the transition disk. And maybe that extra friction turns the material or acceleration disk's energy level higher than it should be. The thing is that black holes are things that help researchers to make gravitational models. 

In some models, the impacting gravitational waves increase the energy level in the acceleration disks. If a parasite black hole exists it sends gravitational waves with the same frequency as the bigger black hole's gravitational waves. That thing can cause a situation in the quantum fields or material to start to flow sideways in acceleration disks. We can say simplified that the antigravity makes the anomaly in the energy level of quasars. 

The existence of the parasite black holes is very short-term. They form in an acceleration disk. And then they fall into a center black hole. But during that time they aim material away from the acceleration disk. 

And one thing is sure, if parasite black holes exist they send counter gravitational waves. That thing causes a situation where gravitational waves undo each other. If we want to see a situation where impacting gravitational waves undo each other, we must find objects that send the gravitational waves in the same frequency and same power. 

https://www.livescience.com/uranus-x-ray-radiation-detected.html

https://www.livescience.com/37115-what-is-gravity.html

https://scitechdaily.com/from-quasars-to-black-holes-spectral-energy-puts-established-theories-in-question/

https://scitechdaily.com/modified-newtonian-dynamics-is-the-ninth-planet-hunt-revealing-a-new-law-of-gravity/

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

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

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

The Oppenheimer approximation is the thing that makes teleportation difficult.

 The Oppenheimer approximation is the thing that makes teleportation difficult. 

Oppenheimer approximation means, that researchers must handle electrons and an atom's nucleus (or core) wave function separately. The reason for that is the different sizes of those components. 

Oppenheimer approximation means. That all particles and particle groups have different wave functions. And we can say this thing is an extension of the Oppenheimer approximation. Because, the particle's size, position, and distance from the energy source are different energy takes effect on particles at different times. Otherways saying: we cannot at the same time affect to all atoms' particles. 

That's why teleportation of the complex quantum structures is so difficult.  If we want to transport things like steel plates by using laser rays the thing that destroys complex quantum structures is the impact wave. That laser ray sends.  

The reason for the impact wave is that laser rays raise all particle's energy levels at the same moment. When laser rays hit the material it raises the first particle's energy level. Energy starts to flow to lower energy-level particles. And that causes shockwave which pushes particles forward.  That shockwave is the thing that destroys the structure. 

The idea of teleportation is that the system creates a structure that interacts like photons. The thing requires that the system denies interaction or energy flow between a structure and its environment. Or the system must replace lost energy with the new energy dose that is in the same level or higher energy level than it's environment. 

The image above portrays a metal atom cube. If researchers want to make a teleportation machine that teleports this kind of complex structure. They must raise the energy level in all particles at the same moment to a higher level. 

Then they must make sure that energy relations between atoms are the same. As they were before energy stress began. If the system sends energy stress to the shell, it forms a standing wave in the middle of the structure. That standing wave destroys the structure. If there is a hole through the metal cube where is shot the laser ray will transport extra energy away from the structure. 

This is why we can superposition photons and some other elementary particles. But we cannot teleport complex structures. The idea is that the laser forms an electromagnetic wormhole. Quantum particles look like stretched waves. 

If we want to make a teleportation machine that teleports something else than data between two superpositioned and entangled photons. That machine must raise the energy level of all particles precisely at the same moment in the structure. 

Then laser ray with the same energy level as the object must sent to it. If the energy level between the laser ray and the metal cube is precisely the same there should be no energy flow between that structure and the laser ray that transports those particles. 

The idea is that. The system pulls superstrings that form elementary particles straight. The quantum particle's form is the same as the warped or stretched waves. And that's why the teleportation system should pull it straight. 

And then. They will travel through the electromagnetic wormhole. When those particles are on the other side the wormhole that impact stretches them again. 

And the same time, keep the energy relations in the structure the same as they were before energy pumping started. If the system just sends energy stress to the outest atoms in a structure that forms a standing wave in it. And then that standing wave destroys the structure. 

That requires the possibility of sending radiation to all particles in the entirety at the same time. Or there must be a hole in the structure. And in that structure must be some kind of heat pump or laser ray. That travels through the structure. That thing denies standing waves in the structure. The standing wave pushes atoms of the structure away and breaks the entirety. 

https://bigthink.com/hard-science/quantum-particle/

https://bigthink.com/starts-with-a-bang/quantum-entanglement-weirder/

https://en.wikipedia.org/wiki/Born%E2%80%93Oppenheimer_approximation