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

The mind-blowing multiverse theory. Is our universe one of the many?

 The mind-blowing multiverse theory. Is our universe one of the many?

Normally, the term universe means the formation where all the material and energy that we know exists. The question is could there be another universe? The fact is "yes". But the existence of those other universes is harder to prove. 

The main reason why the existence of those other universes is hard to prove is light pollution. Galaxies and stars in our universe cover those other universes. But there is another thing, that can make those other universes hard to detect. 

When radiation leaves the universe it travels into cosmic void. That void or cosmic vacuum is deeper than Boötes void. And in that emptiness, the wave movement changes its form. In a normal universe, wave movement jumps between ions. When wave movement hits ions or atoms it adjusts them to a higher energy level. 

When energy stress ends, and the particle's energy level turns higher than its environment it sends wave movement. In the cosmic void between our universe and hypothetical other universes are no ions or atoms or there could be so-called dark matter. But the thing is that there is no visible material that can resonate. 

"Is our universe on of many? Do universes pop up as bubbles from a multiverse?" (ScitechDaily.com/The Mind-Bending Multiverse: Our Universe Is Suspiciously Unlikely To Exist – Unless It Is One of Many)

So there is only wave movement or superstrings that can travel through that cosmic void. And the cosmic void may pull that wave movement to the tape-looking straight structure. 

The multiverse is a theory, that introduces our universe as one of the many universes. The idea in multiverse theory is that there are always events like the Big Bang in space, where our universe or all material and energy that we know exists. The multiverse is almost the same as the parallel universe. 

But the difference between multiverse and parallel universe theories is that in multiverse theory, other universes are in the same spacetime as our universe. The parallel universe means that other universes are at higher energy levels than our universe, or the universe where we live.  

Even if those other universes' particles are precisely the same as in our universe exchange of information is difficult if the other universe is "born" at a different time. 

The origin of multiverse theory is dark energy. The multiverse theory explains that dark energy and at least part of dark matter's origin is in other universes. In that model energy level of those universes is different than in our universe, and that thing means that even if elementary particles in those universes are the same as in our universe it's very hard to see those other universes if the size or energy level of elementary particles is different than in our universe. 

The thing that makes this thing interesting is this. If we think that the other universe is precisely the same as our universe but it's formed before our universe its energy level would be lower than in our universe. That means the radiation that comes from that elder universe cannot reach our universe.  

But if another universe is younger its energy level is higher than our universe. But also particle's size in that hypothetical younger universe is different. That means the other universe will send radiation that has too short a wavelength that we can see that radiation. In the case of identical universes. They could form standing waves between universes. And those standing waves make those other universes hard to detect. 

https://en.wikipedia.org/wiki/Bo%C3%B6tes_Void

The multiverse and the idea behind that

"There is no empirical, scientific evidence for the multiverse"

BigThink.com

Image 1:)"Concept of a twin universe, with the beginning (of time) in the middle". (Wikipedia/Multiverse). If the Schwinger effect forms the universe, it would make two universes. This requires the Big Bang was one great Schwinger effect. If that is true there are two universes. 

The Schwinger-effect forms two particles. Those particles are particles and its antiparticle. On a macro-scale, that means the Big Bang formed the universe where we are living and antiuniverse. That hypothetical antiuniverse formed of antimatter. 

There is no physical proof of a multiverse. Theory and philosophy about that multiverse, are based on logical thinking. When we first saw that the Milky Way is only one galaxy in a large group of galaxies. When researchers are finding larger, and larger cosmic megastructure structures like the cosmic web. 

The next logical step is the existence of another universe. And maybe universes are forming similar giant structures like galaxies and galaxy groups. The idea of a multiverse is that the universe is the result of the Big Bang. And there is a possibility that there are other Big Bangs. 

There is the possibility that even if those other universes exist. We ever can see them. The Big Bang was the case when the elementary particles got their form and wave motion got its wavelength. So the universe got its form. And if things like the size of quarks are different or the margin between the lowest and highest temperatures in that hypothetical universe is different than in our universe, we cannot see that in another universe. 

If the absolute zero temperature in another universe is different than our universe's zero Kelvin, that other universe remains dark. The idea of this is that the material that forms another universe sends radiation with a wavelength that is impossible to see. And the shorter way to say that thing is that another universe forms dark matter. 

There are theories that dark matter can form similar structures with visible material. So, if another universe forms of dark matter that means it's impossible to see. Detection of dark matter structures happens by using gravitational lensing. In that model, researchers are looking for a point that affects the trajectory of photons. 

But that method requires that there is the light that comes behind that object. The fact is that even if the hypothetical universe forms of visible material. The brightness of our universe's stars covers light.  That comes from other universes below their shine. And, that makes it very difficult to detect other universes. 

Image 2:) "The local geometry of the universe is determined by whether the density parameter Ω is greater than, less than, or equal to 1.

From top to bottom: a spherical universe with Ω > 1, a hyperbolic universe with Ω < 1, and a flat universe with Ω = 1. These depictions of two-dimensional surfaces are merely easily visualizable analogs to the 3-dimensional structure of (local) space". (Wikipedia/Shape of the universe)

Was the Big Bang some kind of Schwinger effect? 

The Schwinger effect is one of the most interesting things in the universe and cosmology. The term "Schwinger effect" means that the magnetic field is turning into particles. When magnetic fields turn to particles in the Schwinger effect. That effect forms two particles, a particle, and its antiparticle. 

If the Big Bang was some kind of Schwinger effect. That thing could form two universes. The universe where we are living, and another Universe called the antiuniverse. The antiuniverse means a universe that is formed of antimatter. In that universe, time moves in the same direction as it travels in our universe. And the only different thing is that the material forms that hypothetical universe is antimatter. 

When we look at image 2. And the universe's possible geometrical forms. There is one thing that we must realize if the universe is flat, there is the possibility that the Schwinger effect formed it. The ball-shaped or spherical universe doesn't require the Schwinger effect. The thing is that there is a 2/3 possibility that the universe is flat. That thing means that the universe is "open". 

And it expands forever. But if the universe is a ball or spherical it will collapse. The theory of the phoenix universe where the universe forms again require a ball-shaped universe. But if the universe is flat or hyperbolic that means there is the possibility that the Schwinger effect formed that universe. 

https://bigthink.com/13-8/multiverse-no-evidence/

https://www.nationalgeographic.com/science/article/what-is-the-multiverse

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

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

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

Image 1:) https://en.wikipedia.org/wiki/Multiverse

Image 2:) https://en.wikipedia.org/wiki/Shape_of_the_universe

Do we have enough mass for a multiverse?

The fact is we don't have an answer for that. The multiverse theory is hard to prove right or wrong simply because those other universes are outside our Universe. So we cannot prove their existence by calculating the mass that exists in the Universe where we live. 

There is also the possibility that those other universes are invisible to us. So we might just guess about the existence of the universes outside our Universe. 

There is a couple of versions of the multiverse theories. The first one is the original multiverse theory where other universes are outside the Universe as we know it. 

But another more exotic version is the matryoshka universe theory. In that theory, the black holes are involving another universe. The idea is that the information cannot vanish. The black hole doesn't destroy information. 

Black holes store information. And that information that is stored in black holes can take the form of the Universe. 

There is the possibility that there are other universes but we cannot see them. The reason for that can be that the size of particles that form those other universes is different than particles in our Universe. So, we cannot see that material. And another version of the invisible Universes is that they exist in black holes. 

But how we can prove that thing? The fact is that we cannot prove that thing without traveling through the event horizon. The idea of that "universe in a black hole" is based on the idea that in the middle of the black hole is the point where all energy and wave motion along with the material is packed. That material would be in the fourth dimension because its energy level is so high. 

Even if we see that the fourth dimension is very small if we are seeing that dimension outside it. But if we want to move into that fourth dimension we can see it as a large space, or similar way as we see the third dimension where we are living. The idea is that the dimension is a certain energy level of the matter. The material must have the same energy level as other material bubbles that can interact with them. 

One of the versions of the matryoshka universe theories is that the Universe is the three-dimensional bubble in spacetime that has an unknown shape. And other three-dimensional bubbles are forming other universes that can interact with "our" Universe. But there is the possibility that there are other universes where the material is four-dimensional. If we will look at those four-dimensional universes from the outside they look small. 

There is the possibility, that part of dark energy could be coming from outside of our Universe. That theory goes like this. The outside energy source brings sends wave motion in "our" Universe. The thing is that the wave motion cannot form from nothingness. So if the source of that wave motion is outside the Universe, it can be in other Universes. But proving those universes' existence is very hard. Maybe gravitational waves can give a tip about the existence of those hypothetical other universes. 

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

Why cannot we see other universes?

There are many arguments against the multiverse theory. And one of them is that we cannot see other universes. 

If we think that the universe where we live is unique we might be the luckiest civilization in the history of time. We would be the only intelligent species in the entire universe. That is the only universe in the dimension. 

When we are looking at the history of those "certainly they have not existed". We might remember that in history Earth was the only known planet. Until Galileo Galilei, Johannes Kepler, and Nicolaus Copernicus proved that Earth was only one planet in the group of planets. 

Then we must remember that Edwin Hubble proved that the Milky Way was only one of the galaxies in a large group of similar galaxies in 1924. He proved. That Andromeda Nebula along with some other disk-shaped nebula. Were too far from us that they could not be inside the Milky Way. So Hubble proved that the Milky Way is not the only galaxy in the universe. 

There is the possibility that light pollution is covering the other universes under them. 

There is the theory that in space are billions of universes. This is called multiverse theory. The theory is that the universe is the bubble that formed after the Big Bang. The Big Bang theory is not closing other universes away, and there is the possibility that in space or our third dimension happens new Big Bangs all the time. But the question is why we cannot see those hypothetical other universes. Sometimes people think that maybe we are living in a black hole. But there is another answer to that question. 

The answer might be found in the image about the highway at the night. When we are looking at that image. We see how so-called light pollution or the light that comes from bright street lights. Cover all other light sources under the bright light. That thing makes the illusion that there is only darkness around that road. So the stars and other radiation sources in the universe are covering the radiation sources in other hypothetical universes under them.

Radio signals that come from the other universes are covered by the radio "noise" that comes from the radio objects in our universe. The pulsars that are in our universe cover those radio signals under their noise. And if a plasma bubble surrounds our universe. There is a possibility that those distant radio sources are too weak that their radio impulses can penetrate our universe. 

In the multiverse theory, the universes are not copies of each other. The energy that forms those universes is a little bit different. And that means the particles of the other universes are a little bit different. That means the particles are sending the radiation with a little bit different frequencies. And that thing causes the effect that the other universes would be very hard to detect. 

There is also a time in hypothetical higher-dimensional universes. 

The dimension is sometimes described as the "floor" between two energy levels. If the energy level of the particle is at a certain slot we can see that particle. But if the energy level is too high or too low we cannot see the particle because it sends radiation the energy level is too high or too low that we cannot see that radiation. 

The difference between the multiverse and parallel universe theory is that the parallel universe theory introduces that the other universes are in different dimensions. That means that the energy level of the particles that are in the fourth dimension is higher. Then the particles that are in our universe. When the energy level of the particle is too high it would jump out from our third dimension. 

The oscillation of the extremely high-energy particles is so different than the oscillation in three-dimensional material that they cannot interact. But even in a hypothetical parallel universe time is like in our universe. That parallel universe expands and those particles will lose their energy. So sooner or later those particles will drop to the third dimension. 

The thing is that particles are also aging in the higher dimensions. The thing that makes those particles young is the energy load that increases the energy loss that causes because by the expansion of the universe. The thing that makes the time will stop in the particle that moves with the speed of light is that the particle cannot remove its wave movement. Because wave movement is traveling at the same speed as the particle that thing causes the particle remains young all the time. 

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

https://en.wikipedia.org/wiki/Four-dimensional_space

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

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

https://writingsaboutmysteries.blogspot.com/

Does the universe expand faster than light?

The answer is yes and no. The material can travel outside our universe faster than it travels inside our universe. The reason for that is that there is no scattering effect and other kinds of electromagnetic quantum fields that can decrease the speed of material. So the speed of the two first photons released from the Big Bang is faster than photons inside the bubble called the universe. 

Two forces are affecting the universe. The energy flow outside the universe causes the expansion of it. And the internal gravitation effect that is pulling particles to the center of the ball-shaped structure. We don't know the real geometrical shape of the universe. But because the Big Bang might look like erupting black hole. That thing causes suspicion that the shape of the universe is spherical. 

The fact is that shape of the universe could also be flat or hyperbolic. And hyperbolic universe causes theory that during the Big Bang. 

The form of material could be of an hourglass. The visible material would be in two hyperbolic-shaped forms in the ball-shaped structure. The other layer would be the universe where we live. 

And another would be the anti-universe. Antimatter can form large objects. But its mirror material to material that forms our universe. 

And the only thing is that object would detonate immediately when it touches the material. The universe would be two layers of visible material. There could be a dark matter between those layers. 

The anti-universe would be similar to our universe. But its forms of antimatter. The idea of the hourglass-shaped structure is coming from the hourglass nebula. 

Poles of the supernova caused the material to travel opposite ways. And that effect can be possible also in the erupting black hole. But there is a possibility. That mainly material released from the equator of the poles of the object that formed the universe. 

Image 2) "The local geometry of the universe is determined by whether the density parameter Ω is greater than, less than, or equal to 1.

From top to bottom: a spherical universe with Ω > 1, a hyperbolic universe with Ω < 1, and a flat universe with Ω = 1. These depictions of two-dimensional surfaces are merely easily visualizable analogs to the 3-dimensional structure of (local) space". (Wikipedia/Shape of the Universe) 

If  Ω > 1, this means gravitation wins. And the universe will end its existence in the big crunch. Otherwise, the end of the universe would be a "big emptiness". The problem with determining the shape of the universe is that we cannot see dark matter. And we cannot see the universe from outside. 

This is one way to see things. When we think about the edge of the universe there is no quantum field outside it. That means the radiation pressure from inside the universe is the reason why the universe expands. Energy travels from the higher energy universe to emptiness. There are lower energy fields. And the energy flow is the thing that will destroy the universe someday. 

Image 3) Hourglass nebula has caused an idea that maybe the universe is two balls or two hyperbolic layers. 

When energy is traveling out from the universe it goes to the area where is nothing. The energy flow would be a monotonic wave movement outside the universe. There is the possibility that some kind of wall of wave movement would form the shockwave that travels in space. That shock wave formed in the Big Bang. And it travels at the front of the material. 

So if there is some kind of particles that wall of wave movement would travel faster than light at the front of the universe. There is possibly an electromagnetic or quantum vacuum behind that wall. And energy travels to that small vacuum and pushes the shockwave ahead.  

And that means the universe is actually in the giant WARP bubble. The things that are outside the universe are a mystery. There are possible other bubbles that are remainings of other big bangs. And other universes. But there is the possibility that those other universes are so distant that we cannot see them. 

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

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

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

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

Image 2) https://en.wikipedia.org/wiki/Shape_of_the_universe

Image 3) Redditt

https://thoughtsaboutsuperpositions.blogspot.com/

 

 Physicists are quite sure that the multiverse exists.

Image 1

If somebody wants to say that "certainly multiverse" does not exist I must say. That history is full of things. That was "certainly do not exist". Things like exoplanets, exosolar systems, and even other galaxies are mentioned as the product of imagination. Our knowledge of the universe expands all the time. And we must remember that Edwin Hubble found other galaxies in the 1920s during the researched spiral nebulae. 

Long time people believed that the Milky Way was the galaxy and other galaxies orbit it.  Now we know that there are many galaxies in the universe. But the fact is that the reason why those galaxies are spirals is just confirmed. 

The spiral structure of galaxies is the reason for supermassive black holes that are forming that whirl around them. Without supermassive black holes, the formation of the spiral structures is impossible because the supermassive black holes are acting like axel in that structure. 

But is it possible that deep inside the universe is a hyper massive black hole? The size or diameter of those predicted monsters' event horizons is larger than galaxies. The beginning of that theory is in the hypothesis that. 

When the Big Bang happened. A part of the material dropped to the black hole that formed just after the explosion. Some scientists believe that the Big Bang was a white hole where the material was released. 

But then we might say that now we know more things about the universe than ever before. And surely, there are other universes. The reason for that is that universe is a bubble. That formed after the Big Bang. And, of course, there should be other big Bangs and other universes. 

Image 2) Cosmic microwave background (CMB). Note the blue areas which are cold points in CMB.

Three facts support that theory. 

1) The cold spots in the cosmic microwave background (CMB). 

Those cold spots are seen as blue areas in the image. There are suspicions that the reason for those cold areas is the enormous eruptions. 

The caliber of those eruptions is larger than any supermassive black hole can ever create. And one explanation could be that the extremely powerful radiation effect which source is outside the universe is the reason for those blue areas. The source of that energy could be in another universe. 

Because energy cannot form from emptiness. There must be some material that forms energy. And that material must locate in another universe. 

2 Dark flow. 

For some unknown reason, some extremely large galaxy supergroups are flowing in the common direction in the universe. There are two possible explanations for that thing. The other could explain the fark flow by another universe. 

Another explanation is the energy flow that travels outside the universe. And that thing means that the energy will push galaxies in the same direction. 

2.1) Maybe some extremely powerful gravitational effect will make those galaxy groups travel in the common direction. The other universe can cause that effect. 

But there might be giant dark matter clouds. That causes a similar effect. The fact is that the "dark" means that the reason for that flow is unknown. 

2.2) The energy flow outside the universe. Because the energy level of the universe is higher than the space around it. Energy travels from the universe to the lower energy areas. 

So the dark flow can be the reason for some kind of asymmetry in that flow. And the question is there something outside the universe that causes the dark flow? 

3)  The part of dark energy could be the wave movement that hits the halo of the universe. Or maybe dark energy is the wave movement which source is in the other universes. 

The part of dark energy could be the wave movement that hits the halo of the universe. Every single star and galaxy is surrounded by plasma. The size of that ball can be millions of light-years. 

There is the possibility. That also entire universe is surrounded by that kind of plasma. Which is extremely thin. When that plasma is impacted by outcoming radiation. That causes the effect that the material inside it will get energy. 

The plasma ball will also conduct the outcoming energy in the middle of the universe. And if there is some kind of material that can receive that energy it sends it back in the wavelength that is the size of those particles. 

If the source of the radiation is in the particles. Which size is different than particles in our universe. That means we cannot see that radiation. So there is the possibility that other universes are a form of material that is invisible to us. 

If that material has different size particles that make it "dark". Dark matter means material that is invisible to us. And the reason for that. Could be that the quarks of that material are a different size. 

Which is the size of the quarks of visible material is. So the only possible interaction between those particles and particles of visible material is gravitation. 

There is also a theory about "dark Big Bangs". That theory is that even inside our universe is forming new universes. We cannot see those universes because they are formed of dark matter. Even those other universes have existed they might be invisible to us. And there is the possibility that some of those universes are formed of antimatter. Even in our universe is suspected of being the stars and galaxies that are formed of antimatter. 

https://bigthink.com/starts-with-a-bang/physicists-multiverse-exists/

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

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

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

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

Image 1: https://bigthink.com/starts-with-a-bang/physicists-multiverse-exists/

https://thoughtsaboutsuperpositions.blogspot.com/

Dark flow: why all galaxies seem to travel in the same direction?

 Dark flow: why all galaxies seem to travel in the same direction?

 

In 2008 there was an observation called dark flow. All galaxies seem to travel in one direction. Sometimes researchers introduced dark flow as a piece of evidence of the existence of the multiverse. 

The dark flow doesn't have a known or confirmed connection with dark matter. And that thing is causing many theories. About that mysterious effect. That could be the reason for the gravitational effect of another universe. 

So there is something that causes this kind of flow. One of the reasons would be that there is an unknown structure in the universe. That thing could be the dark universe. Or it can be the lower energetic area in the universe. 

And that thing causes that the particles and energy are flowing in a certain direction. If that thing happens the particles and wave movement are acting like rocket engines. Those are pushing particles of the galaxies forward. Or otherwise, the higher energetic area is forming a bubble where energy pushes those galaxies forward. 

In some models, the empty bubbles of the universe are surrounded by higher energetic shock waves. And maybe that kind of shockwave is causing the dark flow. There is a theory about the dark Big Bang. That theory means that some of the empty bubbles in the universe could be the new big bangs. 

But we could not see those big bangs because they are sending energy in the wavelength that cannot interact with particles of visible material. In that theory the particles, After all, there are no particles of those dark universes, that are different in size than visible material. So they cannot resonate with particles of visible material. 

What if we could turn the jet of the rocket engine to dark matter? The thing is that if the size of particles of that jet can be adjusted the rocket engine will turn silent. Sometimes there is introduced that dark matter is the thing that forms ghosts. 

That thing can be confirmed only when dark matter is synthesized.  But nobody knows how to make that thing. The idea of dark flow is forming from that idea. The dark flow is the phenomenon, that all galaxies are traveling in the same direction. 

And that thing is created by the invisible universe. In that theory, the other universes are invisible to us. In that theory, the reason for that is the subatomic particles of those other universes are of different sizes than particles in our or visible universe. 

But nobody has not confirmed that theory. There is also the idea that the dark flow is the energy that travels between the galaxy groups. And the thing is that. The dark flow could also mean. That the dark energy is traveling in a certain direction. The one-way traveling energy could cause a dark flow. That is one of the most interesting things in the universe.

https://physicsworld.com/a/mysterious-dark-flow-at-the-edge-of-the-universe/

https://www.nasa.gov/centers/goddard/news/releases/2010/10-023.html

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

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

https://thoughtsaboutsuperpositions.blogspot.com/

Can other universes form of dark matter?

   

 Can other universes form of dark matter? 

The image above: The Hubble image of the Hourglass Nebula. Was the Big Bang look like this?

What makes material visible? The answer is reflection. But also the expansion of the universe causes an effect that wave movement and photons would start to transfer out of material faster. The energy would travel from the higher energetic areas to the area where is a lower energy level. 

The material is visible only if photons are traveling away from it. If the material is lower energetic than its environment. That is causing a situation that energy travels in the material. And that turns material to shadow. 

And that causes that the energy level of the material turns lower and the material is turn to wave movement. When the universe expands, the quantum fields inside it turn weaker. 

And if we could make material where quarks and other particles are a different size than the visible material that thing would be invisible to us. The reason for that is the reflection from that material would have a different wavelength than visible material. 

The idea of the multiverse or parallel universe is not dead. The origin of the theory is in the supernova explosions. There the material is released to the poles of the star. And because mainly the radiation is leaving from black holes from its poles. There is the possibility that the Big Bang erupted material like an hourglass. 

So that thing has caused a theory that during the Big Bang formed two universes. The material and antimatter universes. Then there is the possibility that those universes collapsed causing the antimatter-matter annihilation. That formed the universe. 

But we are not sure about that thing. The idea is that the great annihilation reaction happened between subatomic particles. And at that point. The hadron-baryon particles, like protons and neutrons, were not formed yet. But there is also the possibility that this so-called antimatter universe would be stable. 

Is the invisible material possible? The fact is dark matter is one of the examples of an invisible material that interacts only by gravitation. The thing is that if we want to observe another universe. There is one term that the universe must fill. And that is the size of particles that are forming that other universe. Must be the same size what they are in our universe. 

If the particles that form another universe are a different size than particles in our universe are. They would send reflections on what we cannot observe. Which means another universe would be invisible to us. That means the hypothetical other universes could be invisible to us. 

In the same way, if we would were the creatures that live in that another universe. We would not see this universe. There would be an empty bubble in the place of our universe if we would be aliens in that another universe. 

If we think that somewhere in our universe would form another universe. The particles in that universe would be a different size than particles in our universe. And that thing means that the young universe would be invisible to us. We would see only the empty area in the place where that universe would be. 

But then we can think about the expansion of the universe. When the universe was born, it was very small. And everything in it was smaller. The particles that were in the young universe were smaller than the particles of the universe, where we are living. 

And there is the possibility that we would not observe the particles of the young universe at all. The reason for that was the young universe's particles' quantum fields were smaller than the material that forms the universe today. 

The thing that makes the material visible is the reflection. When energy hits the particles' quantum field it turns over-energetic. And getting the energy balance between the particle and outer universe is simple. The particle sends the photon and that thing stabilizes the energy level. 

When the universe is expanding the energy level inside it will get lower. And that thing will pull the photons out of material. 

But when the universe expands that thing would make the quantum fields inside it lower energetic. When the universe expands, the particles release their energy as photons and wave movement. And that is the reason why there are no absolute zero kelvin degrees anywhere else than in laboratories. 

Pressing the minimum energy level of material with high pressure is possible to make the 50% invisible structures. The reason why the material can be visible is that the quantum field around it will turn weaker. And that thing pulls the photons out from the material. 

But what if the weakening of the quantum field around the particles caused because of the expansion of the universe would deny or compensate by pumping energy to the particles. The energy should be at the same level that the expansion of the universe will remove around it. And that thing can make it possible to make the 100% invisible material that is impossible to see. 

https://scitechdaily.com/magnetene-a-graphene-like-2d-material-leverages-quantum-effects-to-achieve-ultra-low-friction/

https://scitechdaily.com/mit-physicists-use-fundamental-atomic-property-to-turn-matter-invisible/

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

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

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

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

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

Image: https://www.jpl.nasa.gov/images/hubble-finds-an-hourglass-nebula-around-a-dying-star

https://thoughtsaboutsuperpositions.blogspot.com/

The theory about paralleled universes

http://crisisofdemocracticstates.blogspot.fi/p/the-theory-about-paralleled-universes.html

Kimmo Huosionmaa

There is the quite unknown theory about paralleled universes. In this theory, there is not a single universe. Universes are like pearls in the pearl necklace, and there could be the connection between those universes. The connection to other universes would make possible the channel what is forming when the black hole would make the gravity tunnel to another universe. And in the paralleled universe theory, there could be millions of universes in the line, and this is also known as "Multiverse-theory".


This theory was established when the galaxy-groups were noticed by astronomers. In that time were noticed that there are so-called super-groups of the galaxy, and those super-groups, where we're so much galaxy that galaxy involved stars made some cosmologists think that maybe there is also groups of universes in the emptiness. This kind of structures is so enormous that we can't even realize what is their size. In the "paralleled universe theory", those universes are locating in different dimensions, and that's why the traveling between those universes is very difficult. In this theory, other universes might construct by antimatter, or that material might have other different physical qualities when it would be brought to our universe.


But when the material would be in its own universe it would have same kind of qualities than material what is forming in our universe has in its universe or space. This is only speculation, but when we are thinking about ghosts and another kind of stuff, some cosmologists claim that they are like echoes from other universes. In this explanation, the alien, what lives in another universe would project to our space when some extreme large star would explode or neutron stars and black holes would impact. But if the multiverse theory would be true, could it explain many things like dark energy or dark material.


And there could live our lookalike. This explanation would be that dark energy and -material are things what are leaked from other universes. In this theory also in other universes is black holes, and those things make the universe like the leak to other universes. And sometimes that leak of other universe material and energy would come to our universe. This is the very interesting theory, and it has been introduced in many newspapers. When we are thinking about traveling between universes, we must make technology, what makes possible to travel to the center of the galaxy. There the super-massive black hole would open the tunnel to other universes. But in this theoretical trip is one very bad dimension.


If the universe what is destiny to that trip consists antimatter, that would cause the huge explosion and destruction of ship and crew. Also if that explosion happens in some solar system, would that destroy entire star and its planets. This could be theoretical threat also to life on Earth. If the huge piece of antimatter would come into our solar system and hit to some planet could that cause very big disaster, and push the Earth from its trajectory. And in fact, the energy of antimatter is so huge, that even a gram of it would blow entire Earth as the molecular cloud. So this antimatter impact is one threat to our life form and our planet.

Sources:
https://www.space.com/32728-parallel-universes.html

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

https://www.mtv.fi/uutiset/ulkomaat/artikkeli/stephen-hawkingin-viimeisin-artikkeli-tukee-teoriaa-loputtomista-universumeista-niissa-saattaa-lymyta-kaksoisolentosi/6889580#gs.WGxCcdc

http://crisisofdemocracticstates.blogspot.fi/p/the-theory-about-paralleled-universes.html