New steps for the quantum internet.

"Scientists have taken a significant step toward building a future quantum internet by successfully teleporting the quantum state of a photon between two separate quantum dots. Credit: Stock" (ScitechDaily, Quantum Teleportation Breakthrough Brings the Quantum Internet Closer)

In a quantum internet, information travels in nanotubes. The system pulls quantum entanglement through the nanotubes. The quantum internet, which utilizes quantum teleportation for information transport, will offer new and ultra-secure data transmission. This means that eavesdroppers will not be able to see the signal or information. That travels between superpositioned and entangled photon pairs. The quantum network transmits data in a way. That looks like a vector exam. 

The superpositioned and antangled particle pairs act in series. Each of the particles is a quantum point, and data travels between them. Step by step. There is one problem. The transmitter side in the quantum entanglement. It must be at a higher energy level than the receiving part. So, this means that when the particle receives information, its energy level must be higher than that of the receiving particle. There are two ways to handle that problem. The first transmitting particle’s energy level must be very high. 

Above. Math vector in a 3D model. The quantum internet. It uses. This model. For data transportation. The system must handle the horizontal position of the photons. Those are the locations of the turning points of the information flow. The vertical points are energy levels of the photons. And the topological model of the quantum internet. It looks. Like a series of 3D vectors. Actually, the system is more complicated. It must control things like oscillation frequencies and the size of the objects. 

"A common quantum optics process may secretly contain an immense topological structure. By revealing this hidden complexity, researchers show how ordinary entangled photons could enable powerful new ways to encode and stabilize quantum information. Credit: Shutterstock" (ScitechDaily, Scientists Discover Hidden Topological Universe Inside Entangled Light)

"Examples of quantum topologies, shown as vectorial textures on a sphere. Credit: Wits University." (ScitechDaily, Scientists Discover Hidden Topological Universe Inside Entangled Light)

In the upper image. Wave movement. Slide above photons. That topological structure is the photon's contact layer that touches the quantum entanglement. If the contact layer. It is not tight enough, which causes information loss in the system. The quantum entanglement. It transports information like a string in analogical systems. In a quantum system. That string transfers wave movement from higher-energy photons to lower-energy photons. 

"Examples of quantum topologies, shown as vectorial textures on a sphere. Credit: Wits University" (ScitechDaily, Scientists Discover Hidden Topological Universe Inside Entangled Light)

"These structures offer a new way to represent and protect information in quantum systems, potentially helping quantum signals resist noise and interference. The team demonstrated these features using the orbital angular momentum (OAM) of light, which can exist in two-dimensional states as well as in far higher-dimensional configurations." (ScitechDaily, Scientists Discover Hidden Topological Universe Inside Entangled Light)

"A graphene-inspired magnetic system reveals that two-dimensional magnetism and electronics can obey the same underlying mathematics. The discovery offers a new lens for understanding wave-like behavior in engineered materials. Credit: SciTechDaily.com" (ScitechDaily, Engineers Create Unusual Magnetic Material That Behaves Like Graphene)

But there are always limits. When information travels in a series of superpositioned and entangled particles, the difference between energy levels turns zero. And that means information will not travel. Another way is easier. When a particle receives information, the system raises its energy level. The problem is how the system makes information. To keep its form. The solution could be that the receiving particle drives information into mass memory. And then the system raises its energy level. Then the mass memory loads information into that particle.

But the fact is that: Theoretically, this kind of system is very easy to make. Practical solutions are not so easy. The practical solution in the quantum internet requires an ability to control photons and information flow precisely. This requires lots of data, because the system must have. All knowledge of the quantum system and its environmental interactions. So that it can control it with necessary accuracy. Information that travels in the quantum network must be protected from outside effects. 

This means that information channels must be. In a Faraday cage that protects it from outside magnetic fields. New materials like “iron graphene” can make it possible to create the nanotubes that act like a Faraday cage. The magnetic version of graphene can glue iron atoms onto it. The magnetic graphene can also be used to create systems that drive information in the photons. The “magnetic graphene” can be used to trap electrons in it. Then the system uses those electrons to transmit data to photon pairs that are trapped between those material layers. 

https://scitechdaily.com/quantum-teleportation-breakthrough-brings-the-quantum-internet-closer/

https://scitechdaily.com/scientists-discover-hidden-topological-universe-inside-entangled-light/

https://scitechdaily.com/scientists-discover-hidden-topological-universe-inside-entangled-light/

Dark energy and photons.

“Astronomers have discovered an unusual gravitationally lensed supernova whose light has traveled for more than 10 billion years to reach Earth. Credit: Shutterstock” (ScitechDaily, Astronomers Spot Bizarre Supernova That Could Unlock the Secret of Dark Energy)

The new supernova observation can tell us about things. Like dark energy. In dark energy, the main question is, what puts energy into motion? This is the thing. That gravitational lensed supernova. It could give a hint. Dark energy is a strange effect. That could form when the universe expands. The expansion of the universe stretches the quantum fields inside it. That can form areas there. The weaker quantum fields. They can make particles to evaporate. 

Or turn into wave movement faster than outside those voids. The fact is that. New structures are found in the universe. Maybe. Those structures make particles evaporate at different speeds. In some theories, things. Like wormholes can transport energy. Through the universe. When energy or information travels in those almost proven wormholes, the maser effect increases its power. 

“Scientists have made light do something long thought impossible—mimicking the quantum Hall effect, a Nobel Prize–winning phenomenon usually seen only in electrons. (Artist’s concept.) Credit: SciTechDaily.com

Physicists have recreated the Nobel Prize–winning quantum Hall effect using light, revealing that photons can follow the same strange quantum rules once thought exclusive to electrons.” (ScitechDaily, Scientists Just Made Light Do Something Once Thought Impossible)

The photons act like electrons. 

The Hall effect in the upper image. It is introduced. How the Hall effect turns into resistance. In the photonic version, those strings would be quantum fields, and the magnet is the photon. The observation that photons act like electrons. It could help to create. A new way to control photons. 

“The Hall effect is the production of a potential difference across an electrical conductor that is transverse to an electric current in the conductor and to an applied magnetic field perpendicular to the current. Such a potential difference is known as the Hall voltage.” (Wikipedia, Hall Effect) 

The maser effect pumps energy into that energy string. That can collect lots of energy into one point. There is also a possibility that gravitational lenses. They can collect extremely strong  energy loads into a single point. This means that those energy focuses can cause a situation that could accelerate energy. Another thing that causes an interesting idea is that. The electrons that could travel at the front of other particles. They can act like a magnetic monopolar layer. 

The new observations about photons can also be used to explain dark energy. The new observations tell reseachers that photons behave like electrons. If there is a similar Hall effect between photons or in light that is in the electric fields. That can explain some parts of dark energy. We can imagine a situation. Where there are standing waves between elementary particles. 

So if there were no standing waves between particles, the light could travel straight through particles. This means that Baryons, protons, and neutrons are quantum fields that form. Because of the reflection from those standing waves between quarks. If that quantum field does not form. And close those three quarks inside it, protons turn invisible. But is it possible that there are “protons and neutrons” that do not have that quantum field? There is a possibility that the “photonic hall effect” will pump or focus more than predicted energy into photons. 

https://scitechdaily.com/astronomers-spot-bizarre-supernova-that-could-unlock-the-secret-of-dark-energy/

https://scitechdaily.com/scientists-just-made-light-do-something-once-thought-impossible/

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

The ancient mega-stars. Could be. The origin of ancient black holes.

“Star Collapse Black Hole Jet Art Astronomers may have finally uncovered the origin of the universe’s earliest supermassive black holes. Observations from the James Webb Space Telescope revealed an unusual chemical signature in a distant galaxy. And. It points to the existence of colossal first-generation stars thousands of times more massive than the Sun. Credit: SciTechDaily.com” (ScitechDaily, JWST Detects Evidence of “Monster Stars” That May Have Created the Universe’s First Giant Black Holes)

Could those giant stars be? A so-called. But still hypothetical. Quasi-stars. Or black hole stars? 

In some models, the first stars in the ancient universe were so-called quasi-stars or black hole stars. Those hypothetical stars could get their energy from a black hole inside them. The black hole pulls hydrogen from around it into the form of a hollow shell. And there could be nuclear reactions in that shell that formed heavier elements. 

New observations tell us about the first stars. Those giant stars formed just after the Big Bang. And there is a possibility that those stars are the origin of the universe’s first black holes. The major problem with the universe’s history is: What came first? Were black holes before the first stars, or were the first stars before the black holes? In the cosmological models, the only element that formed straight after the Big Bang was hydrogen. 

The main question is, what made hydrogen ions or atoms fall into stars? Could there be some kind of electron clouds that pulled protons together? And then those electrons remained to orbit those protons. This means that atoms formed in those first stars. The problem is. What made protons, or atomic hydrogen, fall and form stars? There are a couple of possibilities. The first thing could be the negative electromagnetic field. That could form an electron cloud, which pulls protons to it. 

“The size comparison of a Quasi-star with other stars.” (Wikipedia, The size comparison of a Quasi-star with other stars.)

Another thing. That which can launch the stellar formation is small black holes or some kind of voids in the young universe. The gravity center, like small primordial black holes. It can make matter accumulate around it. But the cosmic void can also act like a black hole. 

If some kind of radiation beam. Can create a cosmic void. It’s possible that when that kind of void collapses. The idea is that the cosmic high-energy beam pushes particles and quantum fields away from its route. Then the gravity. Along with the falling quantum fields. That travel into that cosmic void. Pull those hydrogen atoms into that cosmic emptiness. And that effect can be connected with the gravity. Together, those things, the collapsing comic void and gravity, can launch star formation. 

Another thing that can create those cosmic voids. It could be matter-antimatter annihilation. There could be antimatter existing. In the young universe. And electron-positron or proton-antiproton annihilation could form those cosmic voids that start to pack matter from around them. 

Particles can travel across that emptiness at very high speeds, and that can form a whirl in the nebula. The problem. In those things is the gravity. And the electromagnetic pulling effect must. Win over the electromagnetic pushing. 

There are only electrons and protons; something must happen that allows those particles and atoms to form the stars. Atomic hydrogen reacts very weakly with other hydrogen atoms. And there must form some kind of structure that starts to pack those atoms. 

https://scitechdaily.com/jwst-detects-evidence-of-monster-stars-that-may-have-created-the-universes-first-giant-black-holes/

https://simple.wikipedia.org/wiki/Quasi-star

Can the universe be infinite?

“Measurements of the early universe show that space appears flat across the observable cosmos. But beyond our horizon, the universe could still curve, loop, or connect in surprising ways, leaving its ultimate size and shape an open scientific question. Credit: Shutterstock” (ScitechDaily, Is the Universe Infinite? The Surprising Truth About Cosmic Geometry)

Before we go into the new ideas of the universe and its geometry. We forget one thing. The infinite universe requires space outside the universe itself. And then we must determine the term “space”. There is “space” outside the universe, but is that space the “total emptiness” energy level that is lower than the energy level of the universe? This causes another question: if that “hypervoid” exists, that could create a situation where there is no particle that can travel across that hypervoid as a particle. This means everything that goes outside the universe turns into wave movement. Because there are no quantum fields in that area, the wave movement turns into a straight form. 

So. The wave that travels in that hypervoid will look like a straight string. This means that there are no internal changes in energy level in that wave. And if there are some other universes, this means that the wave movement comes from those universes. It is the same way as a string. When we observe wave movement, we can detect it because there are changes. In its energy level. This means that we see the change, not the energy itself. This is one of the reasons why we should always ask: Is there space around the universe? If information cannot keep its form in that area? Can we call that existence or not? Outside the universe, information gets its final form. 

But is the universe infinite? We can determine that the universe is a hypercluster of multiple internal clusters. So there is a possibility. The universe is a bubble in an extremely low-energy space. This means that the energy level in the universe is higher. Than the energy level around it. This means that energy travels out from the universe. Normally, we think that this energy flow is one-way. But if we think that particle that travels out from the universe turns into energy, that means that those particles send photons or energy waves back to the universe. This can mean. That some part of dark energy can come outside the universe, but is its origin in the other galaxies, or is it in those particles? This is one of the biggest questions. 

Can the universe expand faster than the speed of light? In a cosmic hypervoid, the speed of light would be far faster than it is in the universe. Another thing is more complicated. The universe pulls that wave movement back to it with its gravity. But. If we think that a cosmic supervoid can cause a situation, the wave movement stretches and turns into a straight form. So. This raises a question: Can information travel at an unlimited speed? Theoretically, that is possible if there are no quantum fields. But. That causes a situation where the wave transports information. Turns into a straight form. This means that returning that information is a very high process. The system should turn. Those energy hills and valleys. On that wave, back into its form. 

There is a possibility that the universe. It is like an energy hill. In the cosmic hypervoid. And if those hypothetical other universes exist, they are the same way energy hills. When we think of the edge of the universe. It’s possible that there is some kind of shockwave that travels ahead of the universe. This means that if that shockwave exists, there can be a very high energy threshold. The shockwave could be an energy hill that is only half a degree higher than the energy level in the inner universe. So there is a possibility. The drop in energy level behind that barrier is far higher. This means that at that point, energy travels out from the universe. Very fast. This means that the cosmic hypervoid is outside the universe. And it pulls the universe larger all the time. When the universe expands, that turns the quantum fields inside it weaker. That puts all elementary particles. To send a wave movement and photons. This increases entropy in the system. 

Without the expansion of the universe, there will be no free energy. There would not be cases where particles send photons. This expansion puts energy into the move. This is the thing that keeps processes in the universe going. And that is the thing that finally destroys the universe, or it destroys the universe in the form that we know it. 

https://scitechdaily.com/is-the-universe-infinite-the-surprising-truth-about-cosmic-geometry/

New quantum technology. It makes it possible. To control light and thermal energy.

“A rendering of the metasurface chip in action. When hit with an infrared laser, the microscopic chip converts the incoming light to a higher frequency and sends it out as a narrow beam that can be precisely directed. Credit: T. Sun, edited.” (ScitechDaily, This Ultra-Thin Device Controls Light Like a Microscopic Spotlight) The entire car, ship, or aviation vehicle can be covered. By using this kind of chip. That chip can make it possible to create ultimate stealth solutions or conduct energy out. From layer very fast. 

Nanotechnology and photonics are ultimate tools for making protective systems. The nanomaterials, which can be a graphene network. And fullerene nanotubes can be the tool. That can turn laser weapons ineffective. The system. It can shoot very low-energy photons or electrons against the laser beams. The idea is that. Those particles bind energy. From laser beams and other electromagnetic radiation. The low-energy electrons. That the system shoots through. The fullerene network can also bind those carbon atoms together. They can conduct thermal energy out of the layer. 

This means that the system. It can make the cooling beam possible. The cooling- or freezing beam means. The low-energy particles. That binds energy into them. This kind of technology can revolutionize nuclear energy and aviation. The ability to control thermal energy. It makes it possible. To control temperature and kinetic energy in the system. 

“Yellow waves show propagating atomic vibrations observed at ORNL’s Spallation Neutron Source. In a smart, switchable ceramic, an electric field aligns charges so vibrations along white field lines travel farther with fewer disruptions — boosting heat flow nearly threefold. Credit: Phoenix Pleasant/ORNL, U.S. Dept. of Energy” (ScitechDaily, Scientists Find a Way To Control Heat Flow With Electricity). In another way. The system shoots low-energy electrons or photons against the heat wave. The idea is that those low-energy particles bind energy into themselves. 

The new material can conduct light. Wth new precision . The microscopic device controls light like a microscopic spotlight. And that can make it possible to create new photonic devices. The ability to conduct and control light. Into a wanted direction makes it possible to create new types of systems that could make it possible to wash the quantum noise out of the quantum systems. This kind of ability also makes it possible to create ultimate quantum stealth systems, which aim light and other types of EM radiation into the desired direction. 

These types of devices and materials can be used to spread laser beams. All around the surface. And that can make it possible. To create a layer that protects layers against lasers and high-energy infrared radiation. This kind of thing can offer a possibility to conduct things like infrared lasers and other thermal radiation out of the layer. 

Another thing that we must realize is that. First time in history. Reseachers controlled heat waves by using. electricity. Basically. It is very easy to control heat by using electron beams. When the cathode system sends electron beams against heat waves, those electrons act. Like water molecules.  They bind thermal energy into them. And that thing makes it possible to decrease the incoming thermal energy level. That kind of system. It can conduct energy away from the infrared radiation. And it can make laser systems ineffective. 

There is also a possibility that the low-energy particles can protect structures against even a thermonuclear explosion. If the cloud of low-energy particles is between the target and the nuclear explosion. Theoretically, they can bind so much energy that the nuclear explosion turns ineffective. The idea is that those low-energy particles are shot against the energy impulse that comes from the nuclear explosion. Could this thing really be possible? It depends on how fast those particles can bind energy to themselves. 

https://scitechdaily.com/scientists-find-a-way-to-control-heat-flow-with-electricity/

https://scitechdaily.com/this-ultra-thin-device-controls-light-like-a-microscopic-spotlight/

Fusion technology comes closer every day.

“An artist’s conception of fusion diagnostics. Credit: Ariel Davis. Scientists say the path to commercial fusion power may hinge on better ways to measure the behavior of superheated plasma. A new DOE-backed report highlights advanced diagnostics, AI tools, and tougher sensors as key technologies that could accelerate the fusion energy race.” (ScitechDaily, The Hidden Technology That Could Finally Make Fusion Power Work)

Those systems could control magnetic plasma hover. And plasma control with very high accuracy. They can precisely control temperature and the plasma expansion. 

Fusion power is one of the most important dreams of society. Almost free and extremely powerful energy source. It is the solution that can solve many problems. Fusion energy is the tool. That can give a solution to energy problems. Society requires more energy for automation. Data centers, and many other things, like new types of defense systems. The new weapon systems that use electromagnetic radiation. Against things like drone swarms and hypersonic missiles requires a lot of energy. In the same way. Data centers that drive large language models are required. More and more energy. This is one of the things. That accelerates the fusion system development. 

But. Here, we must realize a couple of things. Fusion power is a very dangerous tool. The plasma that orbits in the Tokamak reactor is hotter than the Sun’s core. And if there is a small leak in the reactor, that plasma can burn the entire plant. There are many problems with commercial fusion systems. 

Artist's conception of a Bussard ramjet. A major component of an actual ramjet – a miles-wide electromagnetic field – is invisible. (Wikipedia, Bussard ramjet)

But the fusion power. It can someday make it possible to create antimatter. And that can make interplanetary and maybe interstellar flight possible. In ideal cases, antimatter, or positrons. That required for interstellar flight can be produced in the spacecraft. That thing can be a solution for many problems. The positron jet can be aimed at the electrons in the particle beam behind the craft, which can act like a super-powerful afterburner.  

In those large-scale spacecraft. The craft can use a so-called Bussard ramjet. The fusion system is called an interstellar ramjet. The system pulls hydrogen ions from the space around that craft. Using the magnetic field. The system can use the fusion reactor to use accelerators. The accelerator’s purpose is to create antimatter in the craft. So. The fusion power is for close-range drive. And the antimatter acts like the superaatrong afterbuner. This kind of system can have a very big capacity. And it can revolutionize. The space travel. 

https://scitechdaily.com/the-hidden-technology-that-could-finally-make-fusion-power-work/

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

The NASA Dart mission has proven that asteroids can exchange dust and stones.

“[Left] The boulder-covered moon Dimorphos as seen 8.55 seconds before the impact of the DART spacecraft. [Right] The same image after correcting for lighting conditions across the surface and shadows cast by boulders, revealing a fan-shaped pattern of streaks (highlighted in color for emphasis). Credit: NASA/JHU-APL/UMD” (ScitechDaily, “At First, We Thought Something Was Wrong” – NASA DART Mission Reveals a Cosmic Snowball Fight)

“Images from NASA’s DART mission revealed the first direct evidence that asteroids in a binary system can exchange rocks and dust. Slow-moving debris from the asteroid Didymos appears to have struck its moon Dimorphos, leaving distinctive streaks scientists describe as “cosmic snowballs.” (ScitechDaily, “At First, We Thought Something Was Wrong” – NASA DART Mission Reveals a Cosmic Snowball Fight)

The gravity of asteroids is very weak. But. It’s strong enough that asteroids can pull particles like dust and stones from other asteroids. That thing is one of the most interesting things. That the Dart probe uncovered. The ability to “steal” . Other asteroids' material. Gives interesting ideas. About the possibilities that this thing can give. Can there be asteroids that carry material? That comes from some interstellar visitors. Interstellar asteroids and interstellar comets can contain interesting molecules from other solar systems. 

3I/ATLAS photographed in color by the Gemini North telescope on 26 November 2025 (Wikipedia, 3I/ATLAS)

The ability to exchange dust and stones brings new interesting questions. Could there be asteroids in the Kuiper Belt that “stole” particles from the  interstellar asteroid 1I/Oumuamua? And interstellar comets 2I/Borisov, or 3I/ATLAS? If that kind of asteroid exists. The interstellar comets spread particles. All around their path. And it’s theoretically possible to find those particles from the solar system. The AI can calculate those. Comets’ trajectories. And help to find asteroids that bind those particles on their surfaces. 

And. The origin of  those stones and dust can be confirmed to be in those interstellar visitors. Which could be the key to gathering information. About some ancient solar system. There is a possibility that those asteroids are some ancient star’s Kuiper Belt. And then a nova or a supernova pushed them out of their solar system. 

There is a possibility that the remnant.  The interstellar asteroids are left in the solar system. They can uncover new things about planet formation. The problem is that those particles are very hard. To separate from particles whose origin is in our solar system. Oumuamua and 3/ATLAS didn’t leave many particles. But samples of the ice that covers Oumuamua would give interesting information about the origin of that asteroid. There is a possibility that interstellar asteroids and comets can contain water from some extraterrestrial planet. But anyway, they can transport chemical compounds from other solar systems. 

https://scitechdaily.com/at-first-we-thought-something-was-wrong-nasa-dart-mission-reveals-a-cosmic-snowball-fight/

https://en.wikipedia.org/wiki/3I/ATLAS

https://en.wikipedia.org/wiki/2I/Borisov

https://en.wikipedia.org/wiki/1I/%CA%BBOumuamua

There is no quantum computer. Without quantum memory.

 

“An international team of physicists has uncovered a subtle but important twist in how 'memory' works in quantum systems. Credit: Shutterstock” (ScitechDaily, An international team of physicists has uncovered a subtle but important twist in how “memory” works in quantum systems. Credit: Shutterstock)

Theoretically, a quantum memory is very easy to understand. Information is stored on the qubit as hills and valleys on those particles. That means.  That kind of system. It is theoretically easy to make. But a practical solution is harder. Because the system should transform binary data into hills and valleys on the qubit. The system can use a photon that transfers information to another photon. 

The body of information. 

The quantum computer is like a body that needs nutrients. For binary computers and quantum computers, information is the nutrient. The data processing system. Mimics human digestion. Their information is stored in mass memory. Until. It’s shared for the data units that require that information. 

Quantum memory is not what we thought, the new study suggests. The key to the quantum internet and ultra-secure data transmission is impossible if those systems cannot store information. The system transmits information into a quantum computer. That stores data in the transmitting side of the quantum entanglement, and then the system transmits that data forward. The problem is this. Without the ability to store data. The quantum system cannot send it forward. 

And without that thing, there are no quantum systems. We can think of this system. Like metabolism or digestion. Before information is transported into the quantum system, the AI-based system must preprocess it into a form that the quantum system can handle. That information.  The system must predict. Every type of anomaly. If there is some kind. Of anomaly. The system must store. that data into mass memory. 

“Scientists have unveiled a real-time method for tracking rapid qubit fluctuations inside quantum computers. The breakthrough reveals that even stable qubits can deteriorate in milliseconds, offering new insight into how to improve quantum processor performance. Credit: Shutterstock” (ScitechDaily, Scientists Finally See Quantum Computer Failures as They Happen)

 Data is the nutrient for the computer. The binary system preprocesses data. And then send it to the quantum data storage. In the human body. The fat cell stores nutrients until the body needs them. In the same way. In the body of information, a quantum computer stores information in the quantum data storage. And then that system starts to make. Quantum entanglement with the receiving particles. 

We can think that quantum data storage stores data in the form of standing waves. Another way is to create some kind of “hairy” qubit. In the last case, data is stored in the qubit in the form where the qubit’s surface is filled with “hair”. The length of those “hairs” is one state of a qubit. And that kind of qubit can be a revolutionary way to create models of how the quantum computer and quantum circuit should work. The system sends data to the receiver by using quantum entanglement. But. Before that thing is done, the computer must store information in the qubit. 

This is why the quantum computer must follow the behavior of quantum entanglement. All the time. When data is transferred to the receiving particle. The quantum computer can resend that data by transforming the side of quantum entanglement that received the data to the transmitting side. The point of quantum entanglement is that. The transmitting and receiving particles must have different energy levels. If the receiving particle’s energy level rises to the same level as the transmitting particle, the entanglement will be broken. But. If the system can transmit information .Into the next particle, which can make the quantum internet possible. Before the system can turn the receiving particle into a transferring particle. The system must cut the entanglement with the first particle. 

https://scitechdaily.com/quantum-memory-isnt-what-we-thought-physicists-reveal-a-hidden-duality/

https://scitechdaily.com/scientists-finally-see-quantum-computer-failures-as-they-happen/

https://scitechdaily.com/scientists-may-have-found-the-holy-grail-of-quantum-computing/

Cosmic voids, gravity, and WARP.

"A rare, superluminous supernova located 10 billion light-years away has appeared five times in the sky due to gravitational lensing by two foreground galaxies. Credit: Shutterstock" (ScitechDaily, Five-Time Supernova Discovery May Solve a Century-Old Cosmic Mystery)

The WARP bubble is one of the versions of the cosmic voids. We can say that the cosmic void is one of the versions of the WARP bubbles. The cosmic void is a place. Where there is a weaker scattering effect than outside it. This allows photons and other particles travel faster than outside it. Outside the universe is a place that is similar to the cosmic void. 

The energy level of that area is lower than the minimum energy level in the universe. This raises a question: Can a particle cross that thing as a particle? Or does the particle turn into a wave movement? If that wave movement turns straight, it is a very hard thing to notice. 

This forms an interesting question number two. Could there be a cosmic void? There. An energy level is lower. Than zero kelvin? That energy minimum in the universe? If there is a temperature. That is below the known energy minimum; it causes energy flow into that point. That can form. An endless energy source. The fact is this. The universe is full of energy. But there is a problem. How to put that energy into motion. 

The same thing that helps to focus the energy. It can make interstellar travel possible. 

There are many types of cosmic voids. Some of those voids are larger than galaxy clusters. Things like supernovae can form. A small-sized cosmic void. And the antimatter annihilation can form a short-term cosmic microvoid. Sometimes things like dark matter are explained as some kind of cosmic microvoids. The spinning bubbles that collect the Higgs field and aim it in one direction. 

There is a galaxy, made of 99%. Of the dark matter. That means there can be some kind of cosmic voids or low-energy areas in those galaxies. The main question in the cases of dark matter is: why does dark matter not send any radiation? 

Black holes pack quantum fields and matter around them. That effect sends the gamma- and X-rays. Another explanation. For those, X-rays and gamma rays are in some cases. The particle that spins is opposite to the black hole. Changes its direction when it touches the event horizon or energy field near it. That causes an extremely strong energy wave because the black hole’s halo fields pumped lots of energy into that particle. 

When the direction of the particle’s spin changes, that causes a situation where a hyper-energy photon is released. In that case, when the particle releases its kinetic energy, it changes the direction of the spin. 

Cosmic voids accelerate the universe’s expansion. The reason for that is quite simple. The scattering effect in cosmic voids is weaker than outside it. And that means entropy in those areas is lower than in the surrounding areas. This causes a situation where photons and all other particles travel faster in those cosmic voids than outside them. 

When a photon or some other particle that travels through that quantum vacuum hits quantum fields around it, that particle releases its energy to those quantum fields. Another version is that of cosmic voids. Cause energy focus. In the middle of them. Especially if those cosmic voids are ball-shaped. And those reflecting wave movement impulses form a situation. That is like a vacuum bomb. There is a model that particles, and especially elementary particles, are bubbles. The cosmic quantum voids. 

The particle is the whisk-shaped structure of the energy strings that surround a small microvoid. When outside energy impulses strike that structure. Those strings send, or conduct an energy impulse, inside an elementary particle. Then that energy reflects back from the center of the particle. This means that the source of dark energy is. It is in the cosmic vacuums. Or cosmic microvacuums, or microvoids. 

The thing that makes particles. To send photons is their spin. Spin is the effect. There are particles. Like electrons rotate back and forth. Every time a particle’s direction changes. It sends a photon. When the particle spins, it binds energy. When the direction of spin changes, it releases a photon or energy. 

Maybe when one electron or quark wobbles back and forth, that doesn’t cause a very strong effect. But when trillions of particles spin back and forth, that thing causes a gravitational effect. But the thing is that. In normal cases, those particles will not spin synchronously. This makes gravitation so weak. When some particles bind energy, some other particles release it.

But what happens if all particles start to spin harmonically? What if? All particles that form planet Earth start to spin in the same direction at the same time in the same direction? That makes the effect that all of those particles release and send energy at the same time. That can form the nature of the gravity. On the planet Earth. That effect makes the antigravity possible. The system must only change the symmetry of the energy impulses. 

The system can use harmonic particles to release energy. And the non-harmonic particle layer binds energy. This means that particles that are not synchronized can bind energy. And then the system puts those particles to act like a dancing group. When non-synchronous particles bind energy, they don’t pull energy so strongly. But. When synchronized particles release their energy collectively, that means they give a stronger energy impulse than non-synchronized particles. 

That causes an interesting question. 

Is there something that moves back and forth in the black hole? If we think that when a particle. Or a particle group spins. It binds energy. That means. The quantum field travels in that particle. This quantum field transports other particles to that center. When the direction of those particles changes. There is a point. Where those particles stop. Particle releases an energy impulse. This means that if there is a point somewhere inside the black hole. That suddenly stops. That can explain gravity waves. 

The cosmic void is one version of the WARP bubble. The interstellar systems. They must create a cosmic void around them. The system can make a synthetic cosmic void simply by exploding antimatter. Then the system sends a particle beam into that cosmic void. 

The purpose of the WARP bubble is to remove the scattering effect from around the craft. The annihilation. Just forms the shockwave. Which pushes. Quantum fields. Away from those particles. This makes the environment there. The light travels faster than usual. 

https://scitechdaily.com/black-hole-collisions-may-finally-resolve-the-hubble-tension/

https://scitechdaily.com/cosmic-voids-arent-empty-theyre-full-of-something-far-stranger/

https://scitechdaily.com/ghost-galaxy-made-of-99-dark-matter-discovered-300-million-light-years-away/

Quantum entanglement.

"Quantum teleportation is a method for transferring the quantum state of a particle or field from one location to another without physically moving the particle itself. It relies on a phenomenon known as quantum entanglement, in which two systems share strong correlations that cannot be explained by classical physics. Credit: Shutterstock." (ScitechDaily, Quantum Teleportation Breakthrough Sends 5 States at Once)

If we were to see quantum entanglement. Or, information is transmitted between two superpositioned and entangled particles. We would see two balls, and the thin yarn would connect those particles. When information travels between those particles. This event looks like a situation. Where the other yarn ball pulls a yarn string from another yarn ball. 

Einstein’s spooky action at a distance, called quantum entanglement. It is one of the most interesting phenomena in the world. The information travels between two particles in the string. And that makes it possible. That. Quantum entanglement can transmit information faster than the speed of light. That would be possible. If there is a possibility of removing entropy from around that string. This means that there should be something that removes the field from around the string that transmits information. The quantum entanglement creates. The quantum shadow, or hole in the field. And in that hole would be no scattering effect. 

Above: The wormhole, or at least an electromagnetic wormhole, might look like this. The energy string in the middle of it pushes the channel through the quantum field. The entropy in the wormhole. It will deny information. From staying in its form. The structure that transmits information in quantum entanglement. It might also look like this. 

This allows information travel faster than it does outside that tunnel. So a photon travels faster. In the quantum shadow between those particles. The speed of a photon is not unlimited. But. It's faster than outside that quantum tunnel. There is a possibility. To transmit information in the string or use the string. Quantum entanglement is used. To push the tunnel through the field. The electromagnetic wormhole will allow photons to travel faster than they travel outside that tunnel. So, the system can send photons through that tunnel. 

There is a possibility. That's the black hole. It is a group of qubits. This raises a question. About the problem. What if reseachers someday form the superposition and quantum entanglement that travels through the black hole? Could that thing be possible? Could quantum entanglement stand in the black hole?  The model of the qubits on the black hole’s shell is formed by the idea that the black hole’s event horizons are full of potholes and hilltops. Those things can be the zeros and ones in the qubit. 

"Encoded on the surface of the black hole can be bits (or quantum bits, i.e., qubits) of information, proportional to the event horizon’s surface area. When the black hole decays, it decays to a state of thermal radiation. As matter and radiation fall into the black hole, the surface area grows, enabling that information to be successfully encoded. When the black hole decays, entropy will not decrease, but rather will remain constant, as Hawking radiation is an entropy-conserving (adiabatic) process. How or if that information is encoded into the outgoing radiation is not yet determined.Credit: T.B. Bakker/Dr. J.P. van der Schaar, Universiteit van Amsterdam. "(BigThink, Ask Ethan: Can quantum entanglement survive a black hole)?

There is a possibility. That's the black hole. It is a group of qubits. This raises a question. About the problem. What if reseachers someday form the superposition and quantum entanglement that travels through the black hole? Could that thing be possible? Could quantum entanglement stand in the black hole? 

And can a particle stand the energy of a black hole? This depends on the side on which the particle spins. If the particle spins in the same direction as the black hole, it could survive. If the particle spins in the opposite direction, the black hole erases it. The thing that erases the particle is simple. When a particle suddenly switches its spin direction, it must stop for a while. At that point, the particle releases all its energy. If the particle spin is in the same direction as the black hole, the black hole just increases its spin speed. The thing that erases the particle is the change in the direction of the spin. 

The big question is: Can quantum entanglement bring information from the black hole? The black hole pulls all the information into it. There is a possibility that the superstrings. In the spinning black hole. They can turn. The energy flows opposite. But. Another way. It is to create a superpositioned particle pair. When the energy, or information, starts to flow into a black hole. The system can observe the particle that transmits information. The system must know how the information should travel between those particles. So, the system observes how transmitting particles offer information. And then it compares that thing with the real event. The event looks like a situation. There gravity rolls the yarn ball open. 

Can this thing work? Nobody knows. The quantum entanglement should pass. The black hole photonic and plasma halo. To reach the event horizon. When we think about black holes and wormholes. The wormhole can form between two superpositioned black holes. Or the black hole halos can form an electromagnetic wormhole if they turn into a superposition. This means that. Some kind of tunnel. Between two points is possible. 

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

https://scitechdaily.com/quantum-teleportation-breakthrough-sends-5-states-at-once/

https://scitechdaily.com/the-truth-about-wormholes-einsteins-bridge-may-rewrite-time-itself/

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

There are new models for the wormhole.

“Wormholes may not be cosmic shortcuts after all. By revisiting Einstein and Rosen’s original 1935 work, researchers propose that the so-called “bridge” was never about travel through space, but about a deeper symmetry in time itself. Credit: Shutterstock. (ScitechDaily, The Truth About Wormholes: Einstein’s “Bridge” May Rewrite Time Itself)

Maybe. We should stop talking about the Einstein-Rosen bridge. When we talk about wormholes. Maybe we should rather talk about the Einstein-Rosen “light cables”. The quantum tornado. That forms a structure around the quantum strings. In that model, the arrow of time causes a situation where information travels in two directions in the wormhole. This means that when something. Like a particle travels in one direction. 

That means it pushes another particle to travel. Into the opposite direction in time. The reason for this is that the higher speed particle. Pushes energy. Into a slower speed particle. And that causes time dilation. So if two particles travel against each other. With the same speed, they face. That means they lose. Their entire energy. At that point. This requires a situation where the energy levels of those particles are exactly the same. When superstrings travel in the wormhole, some of those strings are. In a higher energy level than others. That causes energy travel into those lower energy strongs. And finally, some of those strings start to transmit information in opposite directions. That forms the entropy in the quantum tornado. 

And that forms entropy in the system, which denies. To travel through that structure. The wormhole is anyway. A very complex structure. That means maybe. There is no final truth about that phenomenon. 

Even in the simplest models. It's hard to travel through the wormhole. The entropy closes that quantum tornado. Even in the most optimistic models. The white hole, which is another side of the wormhole, destroys information. Or it sorts information into the new order. The model is that a white hole forms when the wormhole ends. 

And it forms in the turbulence. In models, the particle that travels in the wormhole stretches into a very long form. When those particles come out from the wormhole, they impact the Higgs field, and that creases them. The reason. For why nothing can limit that crease is that. At the beginning of the existence of the wormhole. There is no entropy. The entropy form . When the arrow of time turns, information travels in the opposite direction in the quantum tornado. 

So, in that model, the wormhole forms. In the energy tornado in the Higgs field. But that requires that gravity is a disturbance in the Higgs field. So. The wormhole is a complex structure where information travels in both directions. And that causes entropy. The wormhole would be like a light cable; there, stretched particles form the strings that transport information into the future. The particle that falls in the wormhole will stretch. And. There is nothing other than elementary particles that can travel through the wormhole. 

In models. A wormhole can form between the superpositioned and entangled black holes. There are many similar phenomena. Like electromagnetic wormholes and acoustic wormholes. But the “real wormhole” is the tornado in the gravity field. Or. If gravitation is the disturbance in the Higgs field, then the wormhole is a hole or a tornado in the Higgs field. 

The time arrow, or arrow of time, causes that. When information travels in those strings, they push it back in time. This means the wormhole recycles information through time. 

The new models of the wormhole suggest that wormholes can rewrite the fabric of time itself. This means that we cannot ever travel through the wormhole as we know travel. In this model. Wormhole is the thing. That can seem like a string. And this means. The wormhole acts like a time arrow, or arrow of time. When information travels to the future, the wormhole brings that information back into the past. So when information travels in the wormhole. It suddenly starts to travel back in time. And that forms the situation where the wormhole closes. 

And that is the thing. That makes the wormhole more complex than just some “hole”. This model explains the wormhole as a structure. The quantum tornado closes the energy strings inside it. So, that means that the structure of the wormhole is like a light cable. The strings that transmit information are stretched particles, or radiation. The entropy forms because the information travels backward between those strings. 

The idea is that outside quantum pressure closes the wormhole itself. And anyway, a wormhole is the thing. That is more complex than just some tornado that crosses space and time. This means that the wormhole looks like a cable. There are lots of quantum strings inside the quantum tornado. 

So, the quantum tornado in the Higgs field forms the shell of that structure. And then the stretched particles are the strings. The entropy that closes the wormhole forms because of the time arrow. When those quantum strings send information to the future, they also kick information back in time. This means that. In the wormhole, there is a point. Where information starts to travel in opposite directions. That information travels in those strings. So the time arrow turns information travel in the opposite direction in the wormhole. And that causes entropy or turbulence. At this point. 

The thing that makes a wormhole. Or the Einstein-Rosen bridge, so hard to understand. Is that. We call it a bridge. For us, the bridge means a structure that we can use to travel between two points. The wormhole is a rather light cable that can transmit information. So, maybe we should call the wormhole. As an Einstein-Rosen light cable. 

The tornado. That closes its other structures inside. It denies energy traveling out from the structure. The outside energy. Press that quantum tornado into its form. That quantum tornado presses the strings that transmit information against each other. Because there are strings that transport information or energy into the future. But also strings that transport information to the past, pressure pushes those strings together. And that forms whirl and entropy in the structure. Without that entropy, we could see through a wormhole. 

https://scitechdaily.com/the-truth-about-wormholes-einsteins-bridge-may-rewrite-time-itself/

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