So what is truth, and what is wrong about wormholes?

1) What is a wormhole?

In models, the wormhole is only a pair of superpositioned and entangled black holes. There is the possibility that the gravitational waves can start to travel between two black holes and surround them by forming an "8" shaped form. That form of the gravitational waves the shape of a lying twig is making it possible that black holes or gravitational waves at the point of the event horizons to start to oscillate.

So the wormholes are forming between superpositioned and entangled black holes. They are forming similar ways with all other superpositions. But the thing that forms the superposition between the black holes is gravitational radiation. 

The same laws that are ruling other quantum entanglements rule the wormholes. 

*The energy or information can travel only from the higher energy level to the lower energy level. 

*If both sides of the wormholes are at the same energy level that breaks the wormhole. 

*Wormhole can form only when two black holes are oscillating at the same frequency. And another black hole's energy level is lower than another one. 

2) Wormholes make the exchange of information between black holes possible. 

Wormhole or Einstein-Rosen bridge through the universe. And the wormhole is the channel that makes black holes exchange information. So researchers think that wormhole is a gravitational tornado that travels through the universe. That thing means that all coherent radiation channels can form the wormhole. But they cannot break the laws of physics. And that thing makes those weak wormholes useless in the long-distance change of information. 

That means they are not transporting cats or dogs through them. If the wormhole can make it possible to transport wave motion that doesn't mean that even hadrons can travel through that thing in one piece. And theoretical models are the beginning of real practical solutions. 

3) Forming of wormholes is connected with the speed of gravitational waves. 

So making stable wormholes between stars happens at the speed of light. If the spacecraft can reach the speed of light. In space, gravitational waves travel at the speed of light.  And only gravitational waves can form a so-called real wormhole. 

The reason why photonic tornados cannot make that thing is that they are leaking. The outcoming radiation breaks that thing. 

4) What happens inside a wormhole?

The wormhole is the tunnel through space and time. The core of that tunnel must be tight enough. The core of that channel must isolate the wormhole's internal space from the outer space. That denies the form of the crossing quantum fields. Crossing quantum fields are the thing that denies crossing the speed of light. 

If the core of the energy channel is tight enough. That makes a situation where the object rides with an energy wave. So in a wormhole, every particle and wave motion travels at the same speed. 

5) Can we sometimes travel to other stars by using a wormhole?

The question is: how big is the wormhole is. There is the possibility that wormholes are smaller than atoms. And that makes it impossible to use them in space travel. So we never can travel through that channel. 

But there is one thing that we must remember. Energy travels in a wormhole from the higher to the lower level. And if we want to benefit from wormholes in space travel we must travel to a lower-energy star than the sun. If we want to make the hypothetical journey to Alpha Centauri by using a wormhole, we must make one thing. 

We must travel first to Proxima Centauri. Theoretically, we could build a wormhole that transports information from the Sun to Proxima Centauri. The G2 spectral class star, Sun is a higher energy level than red dwarf Proxima Centauri. And then if we want to travel back we should make another wormhole near Alpha Centauri that is a higher energy level than the sun. And that makes information travel to the sun. 

6) There is a possibility that we can only transmit data through the wormhole. 

Transmitting data like photons or electromagnetic wave motion through the wormhole is easier than sending living organisms through that energy channel. There is a possibility that small wormholes are making long-distance quantum entanglement possible. 

Wormholes are a great opportunity. They can offer the possiblity to transfer black holes' energy to Earth. Or they can offer the possiblity to create safe-long distance communication. 

But can we someday travel through those wormholes? Nobody knows what happens in the future. Maybe, someday in the distant future, we can make those kinds of things. Before that, we must create theoretical models of how to create a wormhole. 

https://bigthink.com/starts-with-a-bang/wormholes-quantum-computers/

Quantum entanglement and the expansion of the universe

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

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

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

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

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

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

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

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

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

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

https://astronomyandtechnology.blogspot.com/

How to adjust energy levels in quantum entanglement without breaking superpositioned quantum entanglement?

Low-energy particles can adjust quantum entanglement's energy level in quantum computers. 

The low-energy particles can use to adjust the energy level of quantum entanglement. When the energy level of the quantum entanglement rises high enough the low-energy particle will be used to pull energy away from quantum entanglement when the energy level in that structure rises too high. 

And that helps to keep the energy level in quantum entanglement longer in the right position than without that system. That helps the quantum computer operate longer time without re-adjusting. 

The problem with quantum entanglement is that they remain only for a short time. When the energy level in that structure turns stable the quantum entanglement is destroyed. For making energy flow another side of the quantum entanglement must have a higher energy level. 

One possibility is to shoot low-energy quasiparticles under the side of the quantum entanglement that is rising too high. The idea is that those particles are pulling too much energy out from the quantum entanglement. 

And those particles that are at low energy levels will use to adjust the energy level in quantum entanglement. So in this model, the low-energy particles are shot near the quantum entanglement the energy level is too high. 

How can researchers exchange information between two molecular (extremely complicated) quantum systems? 

Of course, the energy level of another system must be higher. That thing makes information flow between those molecular systems. 

When we are willing to make two or more complex quantum system exchange information we must find something that is the same in both systems. That thing can be quarks or bonds between quarks. 

If we want to exchange information between two molecular structures by using quantum superposition we must realize that the transmitters and receivers of those complex quantum systems must be so big that they can put each other resonate. 

One of the things that are similar in all quantum systems is the bonds between atoms. There is the possibility that by stressing those chemical bonds with electricity the controller can transmit the information between two molecular quantum systems by using superposition and quantum entanglement. 

In that case, the bonds between atoms are offering a good tool for that purpose. The superpositioned things must be so big that the oscillation is. That they send to quantum fields in the molecular structures can be measured. Normally, superpositioned quantum entanglement is possible only between elementary particles. 

Or actually, the energy fields of atoms can be superpositioned. But there is so much turbulence that some other point of the system must put to resonate or resonating atoms must be some extraordinary elements. If the system uses common elements. 

That causes turbulence in the resonance.  The resonance is the key element in quantum entanglement. The superposition means that the elementary particles are oscillating with the same frequency. And they are connected by an energy bridge. 

In most cases, quantum entanglement made by using photons. But in molecular systems that are much larger than individual photons, the chemical bonds are a good thing that can put to superpositioned quantum entanglement. 

https://artificialintelligenceandindividuals.blogspot.com/

Six extra-large atoms can imitate brain.

The full article about those six atoms and brain imitation is in the New Scientist. But the fact is that these kinds of ideas are revolutionizing quantum technology. There is theoretically possible that atoms can make similar structures like neurons.  

And, of course, that brings fascinating ideas to neuroscience but also for artificial intelligence. Some researchers have introduced a model where the electron layers of the atom act as the neuron's membrane. The superpositioned and entangled electrons make channels that are acting as axons in this quantum brain. 

The memory blocks that are needed for making the quantum brain function are the electrons that are at the Rydberg state. This thing makes it possible to make the atom cloud where the atoms are formed the 3D structure that is similar to the human brain. 

This is one of the visions of the extremely advanced quantum systems. There are many versions of this theoretical quantum computer that has the form of an atom cloud. The shape of the quantum computer is not pre-ordered. Things like electron clouds and even quarks and photon clouds can be from the quantum computer. 

And one of the most brilliant quantum computers is the human brain. Each neuron is a biological qubit. And every single neuron can operate in a certain state like atoms, which work in miniature quantum computers. 

The thing that makes quantum computers so powerful. Is that they can make multiple operations at the same time. 

So because the quantum computer can share the calculations to multiple levels or states that allow the quantum computer makes everything at a very high speed. That thing makes those systems so powerful. 

Things like used axon tracks and the neuron's temperature can determine the state of the neuron. I don't know how much the temperature of the neuron affects the state of the neuron. But enzymes that neuron uses to control the neurotransmitters are very sensitive to temperature. 

But things like the number of used axons that neuron uses. And the route of the signal affects the determination of the state of the neurons. This thing makes our brain the most fascinating tool in the world. 

https://www.newscientist.com/article/2333553-quantum-computer-made-of-6-super-sized-atoms-could-imitate-the-brain/

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

https://webelieveinabrightfuture.blogspot.com/

What is the time, and how can we transport data faster than the speed of light?

The cosmic ADSL. 

When we want to determine the ability to see the future we might use the term "how to get information from the things that happened faster than other people?". Between the planets and stars, this is possible. The answer is to make the quantum entanglement between Earth and other planets or stars. That thing might be cosmic ADSL- communication system in the far away in future. 

If we would use superpositioned and entangled particles for communicating between Earth and Alpha Centauri we can transmit data through the distance with very high speed. So by using the superpositioned and entangled particles is possible to transmit data faster than the radio waves are traveling between those distances. 

What is the time? Some people say that it's a loss of energy or particles changing to wave movement. So that's the time for the physicist. When we are thinking about ourselves and our relationship to time we all live in the past. Everything that we see and what we hear has happened a little bit before the information can reach our eyes. 

So we see things that are happening a short time before. The photons or soundwaves will impact us. This means the time is the "time that the particle or wave movement uses when it travels from a certain point to another".

 So can we see or travel to the future? The fact is, we can travel to the future. It's quite easy by creating spacecraft that can travel at the speed of light. The time dilation keeps us young. But the problem is that how to get information back to the past. This is the problem with time travel. Going to the future is easy. But getting information from the future to the past is the problem. 

But what if we would determine the "ability to see the future" as the ability to get information before other people can get it. Theoretically, this thing is possible to make but it needs a very long distance. 

We can see to future "very easily" by using the "spooky effect at a distance" or quantum entanglement. The superpositioned and entangled particles can bring information from long distances. With a speed that is higher than the speed of light. The reason for that is that those particles are like a stick. When another particle in that particle pair is moving another one is also moving. So theoretically we can shoot spacecraft to Alpha Centaur. 

And in that craft would be the superpositioned and entangled particles. Another side of those particle pairs would be at the laboratory. But that thing requires extremely high- energy levels that the quantum entanglement can maintain in the long distance. Making this thing in real life is quite more difficult than making theoretical text about it. 

If we would transport data using quantum entanglement the benefit of that thing rises when the distance is getting longer. That means that by using superpositioned and entangled particles the person in Alpha Centauri would get information immediately when the normal radio waves would transport data 4,5 years between the Sun and Alpha Centauri. 

So in this case the person in Alpha Centauri doesn't see to the future. That creature would get information from Earth sooner than the person who uses traditional radio waves. But the thing that the person sees happened in the past in both cases. 

https://thoughtandmachines.blogspot.com/