Wormholes: how to make them?

Wormholes: how to make them?

The wormhole is the thing that can solve the quantum network’s biggest problem. How to move particles between two places and protect that information from outside effects. If we want to use things. Like laser beams to make the quantum channel, we face another problem. A regular laser beam leaves particles inside it. And the key element is to remove those particles from the quantum channel. So, the answer can be the series of quantum fields that melted into one entirety. Then the system pushes those particles out. From that quantum tube. 

In this text, the key is in acoustic and electromagnetic wormholes. Wormholes are channels between two points. The wormhole is a synonym for a quantum channel, the tunnel through the quantum fields. Otherwise, we can say that an acoustic wormhole is a channel. Through gas or liquid. When we want to make a wormhole through air or some liquid. We must realize that the wormhole can be like a tornado through the medium. An acoustic wormhole can be made by spinning two fullerene or benzene molecules in a medium. Those molecules are opposite each other. 

And then they can start to form the tornado through that condensed liquid. Then, some acoustic beam or particle will push that molecular tornado empty. Then the system must only keep the coustic tornado open using the higher energy acoustic waves that deny the channel collapse. 

An electromagnetic wormhole forms when the laser or some other energy beam pushes an atom’s or other particle’s quantum fields into one form. The idea is that the energy beam stretches the quantum fields around atoms or other particles. When those quantum fields touch each other. The system can push those atoms away from that quantum channel. The energy ray that the system aims. Through that channel. Begins to keep the quantum channel in its form. And deny its collapse. If that system can really be created. It can open new views into quantum communication. 

The system works like this. The first quantum system creates a series of superpositioned and entangled atoms. The EM wormhole forms those atoms or their nuclei that are quantum entangled. And then those particles can start to form a quantum tornado between them. The system creates an electromagnetic shadow using a beam that hits the particle pair from the back of the transmitting particle. To create a channel between those atoms. The system must only push those particles out from the channel to form the quantum tube; there is no electromagnetic resistance. 

The key question is: can the system to create a hovering, or empty quantum tube by using a laser, or a particle beam as the virtual atoms in the middle of that tube? It could be possible. To remove the atom nucleus from the quantum field and make the field sustain using a virtual particle. That kind of empty field can be a powerful tool 

Then it pushes those atoms away from that quantum channel, and then the radiation pressure of the laser or particle beams. That denies that tunnel collapse. The energy beam acts like a water flow. That causes counter-pressure that keeps the wormhole open. The electromagnetic and acoustic wormholes are tools that allow researchers to create a quantum network. The electromagnetic wormhole forms in the acoustic wormhole. This allows the system to transport qubits or particles that carry information through the air. If something touches information that carrier particles carry, it destroys the information. 

Happy 100-year birthday, quantum mechanics.

    Happy 100-year birthday, quantum mechanics. 

The GIF above this text introduces field interaction. When the outside field pushes the inner field, the inner field’s or structures' size will turn smaller. Until the pressure or energy level in it can break that process. Or the pressure or energy level turns so high that it can resist the outside field. 

It’s 100 years of quantum mechanics. In 1925, young scientists named Werner Heisenberg went to Helgoland Island and developed the concept of quantum mechanics. In Helgoland, he realized that all things in the universe are in interaction. There, that person realized that the sky is blue because some kind of particles hit it.

And then that thing caused shockwaves that we see as blue light. The blue light is so-called Cherenkov radiation. That radiation forms when a particle that travels speed of light hits the atmosphere. Those particles must slow their speed because the speed of light is lower in the atmosphere than outside the atmosphere. 

When a particle slows its speed, it must transfer its kinetic energy into its environment. When a particle hits the atmosphere. It sends a shockwave. The shockwave that we see as a photon is the thing that slows the particle's speed. When we think that the universe and all other systems are growing entropy, that means. We see that chaos is increasing in the system. But then we must wake up and make one decision. 

If the system is limited, any phenomena in it cannot be unlimited. And then we can see that entropy is not literally “chaos”. It's the thing that might look like chaos. But there can be repeating structures. Like in fractals. If researchers can someday find the order in the system’s entropy, they can calculate changes in its shape backward. And if those calculations are made right, they can uncover the shape of the original system. 

That makes this type of thing interesting. When a particle travels through the universe, it collects information from its environment. That information is on the particle like plague. And the problem is that. We cannot touch the particle. But if we could see the shape of the information that forms hills and potholes on the particle’s shell. If researchers know the route and entire systems. If the particle passes, it makes it possible to reorder that information. The problem is that near all stars, molecular nebulae, X- and gamma-ray bursts, and all other things involve quantum systems. 

The quantum fields in those systems are unique. And that makes this model theoretical. But if researchers know everything about the  particle’s route. They could restore information and see what things look like in that particle’s route. If that kind of thing is possible. That makes the quantum network possible. Data travels in a quantum network connected to particles. And if researchers can protect the data and calculate it back in the form. Where information was at the beginning of the particle’s journey. It allows sending bottle-post where information is stored in electrons. 

The ability to remove entropy. Makes it possible to see distant objects. And it can also allow researchers to transport information from the past to the future. Or from the future to the past. The black hole is the thing that can transport information from the future to the past. But the problem is that the entropy at the edge of the event horizon turns information into a mess that nobody understands. 

That entropy is like a series of whirls that mix information into a form. That makes no sense. But if researchers know how that border behaves and what kind of whirls there are. That allows them to re-order that information. That requires complete knowledge of the systems. And how those things behave in interaction. 

Gravitons, photons, and string theory.

Above: A spiral galaxy is actually a material disk around a supermassive black hole. 

If a graviton is the black hole in the middle of a photon that thing is a small but very powerful particle. When we look at the black holes in the universe we can see that those phenomena pull material into them from extremely large areas. The Sagittarius A’s size is about the same as the solar system. But it forms a spiral galaxy around it. 

That means that if the photon is a structure that is formed around the quantum-size black hole, that means the quantum black hole could be the graviton, the missing gravitation transmitting particle. But that particle is extremely small if we compare it with a photon. In this model, the photon is an energy ring that locks that quantum black hole into its form. That means photons are the energy field that denies the quantum black hole explosion. 

Or if the superstring or string theory is true we can say that if a photon is lost. That pushes a black hole into that superstring. An energy field that falls behind it impacts the superstring. In string theory, superstrings form all particles and energy fields. Those strings can be like rings, or they can be very long lines. And that means those 2D strings form everything. 

The idea is that the hypothetical superstring that the photon surrounds acts like a thermal pump that puts energy flow away from that point. 

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

The question is how can that thing form? The answer could be in the Kugelblitz black hole. The black hole can form from energy or from superstrings. The idea is that the photon that we see is an energy ring around the superstring. When the energy that comes out starts to push that string in that point, that makes energy move in and on that string. Superstring can be thinner than quark. But it can be as long as the diameter of the universe. So, when the energy level in that point starts to rise it puts energy to move out from that point. The rising energy level at that point puts energy moving faster at that superstring. 

That thing starts to pull energy out from that point so fast that all wave movement goes with that thing. In this model, the photon is the impact field around the superstring that cannot take all energy away from that point. The photon is the energy field that outcomes energy locks around the energy hill that makes energy move in the superstring. This means the black holes are like extremely powerful thermal pumps that make energy flow away from the point where they are so fast that quantum fields around them start to travel to that point with such high speed that light or any other wave movement cannot escape from that point. 

When we think that a photon is the ring-shaped energy field around some kind of superstring, the next question is how that superstring turns into a supermassive black hole. That happens when those superstrings are starting to tie around each other like a rope. That kind of thing can form extremely large black holes. But the requirement is that those structures must not let energy away from them. So maybe at least large-size Kugelblitz black holes cannot form in the modern universe. There is so much free space or surrounding quantum fields are so weak that the rope-shaped structure of superstrings will be broken. 

The black hole is in the interaction between it and its environment. Outcoming energy or quantum fields press that structure together. And in the young universe, those quantum fields were much stronger than in our universe. They pressed those superstrings together. And that means it's possible that in the very young universe the Kugelblitz black holes formed before material. That is one way to think about the most interesting phenomenon in the universe. Proving that thing requires proving string theory. And that is not an easy thing. 

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

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

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

String theory and mysterious structures in the universe.

 

There is no confirmation of the superstrings. In Superstring theory. Those superstrings are channels through space and time. So they are also wormholes if they exist. They are hollow energy tunnels where the wave movement can travel. And the thing that supports this theory is the cosmic web. Or, cosmic neural web. The largest megastructure in the universe. There is the possibility that the material is packed on those hypothetical superstrings that are "cold". 

In that (super)string theory. Dark matter and dark energy have the same origin. The dark matter is an extremely low-energy particle. Dark energy is like a flash that forms when something pumps energy into the hypothetical dark matter particle, called a weakly interacting massive particle, WIMP. There is the possibility that the WIMP is like a donut. And if the superstring travels through that particle very fast it acts like a thermal pump. That superstring takes energy out from the particle focusing it into the middle of it.

Because. The energy travels out from the particle from the middle of it. That makes it impossible to see those particles from its sides. Theoretically it is possible that a spinning particle makes an energy channel that pulls a superstring through that particle. 

Or if the particle is like a pearl necklace around the superstring, fast energy flow through that string makes the particle invisible, because it pulls energy away from its structure. The energy that travels through the particle acts like a thermal pump. 

The reason for that is the energy that flows in those structures. That energy acts like a thermal pump. The thing that makes energy move in those tubes is the universe's expansion. If the energy that travels through that tube flows fast enough, that energy can keep the superstring open and in its form. 

The string theory goes like this. All energy fields and materials in the universe are formed of tiny parts called superstrings. The superstring is the serpentine-shaped structure in the energy field. So, superstring is the energy field that the quantum- or electromagnetic low pressure keeps in its form. The thin energy field will stay like a paper roll around the energy vacuum or lower energy level field. 

That means the superstring, the tiniest part of the material, looks a little bit like a cardboard roll. The outside energy stabilizes that structure around the energy vacuum or lower-energy level field. Superstring size can be very large, and there is a theory that the superstring can be larger than the universe. And the smallest of them are far smaller than photons. So superstrings are a medium between material and wave movement. 

So, how do superstrings turn into a photon? 

When a superstring hits an energy field or conducts energy into that field. That forms similar waves as stone makes when it drops into the water. That wave is the photon. When the superstring travels through that donut-shaped standing wave it transfers energy in it. And also the superstring acts like a thermal pump. The photon, or ring-shaped energy field forms around that string. The photon itself cannot break the superstring's shell. When a superstring travels in the electromagnetic field it pushes that field away. That forms the pothole around that superstring. If that pothole is large enough it can pull particles in it. Or outside energy can push particles into that hole. 

When that superstring drills itself into the energy field. That continues as long as the energy level in the superstring is higher than the field around it. The energy in that string keeps the energy hole open. The universe is at least a 4-dimensional entirety. The time is one of the dimensions. The past is closer to the beginning of the universe, or the Big Bang. That means it is at a higher energy level than the future. So if there is a tunnel that doesn't allow energy interaction between inside energy or wave movement that travels in it. 

And the outside energy means the inside wave movement cannot release its energy. That means that this kind of string or tube can make a shortcut through time called a wormhole. But the wormhole requires that the energy flow inside it is strong enough that it cannot press that tube together. That means the long wormhole can stay open more easily than the short wormhole. 

The superstring travels in the hole and makes it deeper because the energy level in its nose is higher than the field around it. But it's lower than the energy level at the back of that string. The higher energy level at the back of the superstring pushes that string into the pothole. 

The thing that makes the particle fall into the pothole is the superstring's structure. Particles are like pearls in the neckless around the superstrings. When the superstring travels in that pothole the waves in that string or thin energy field move particles with it. 

When a particle and superstring start to travel in the deep energy pothole, energy travels from the slopes of that energy or gravitational pothole to the superstring. 

The energy also starts to flow in that gravitational pothole slope to the bottom of it. The energy level in the particle can rise only if the superstring that travels through it does not travel too fast. If that superstring moves energy out from a particle too fast, it cannot reach a high enough energy level that it can reach the gravitational pothole's edge. 

Superstrings can be very long. They can transport wave movement through them. That energy flow makes superstrings cold. And that makes it hard to see them. When energy strings travel through those superstrings they move energy away from the superstring's shell. The master-emission also acts with energy that travels in the superstring. The outcoming energy pushes those strings almost straight. The thing that makes the superstring leak is the expansion of the universe. The superstring is the wormhole that transports information from the past to the future. 

Superstrings and dark matter and dark energy. 

The theoretical graviton particle is the elementary particle that transmits gravitational waves. We know that gravitation has a wave shape. But why that hypothetical graviton will not be visible in sensors? There is a model that. Graviton is a donut-shaped structure. The energy field or superstring travels through that donut-shaped structure and that string transports energy out from that ring. 

Because that superstring transports energy out from that structure from the middle of it, that makes energy travel in the middle of those structures. And if no energy can reflect from that structure it makes it invisible. If the superstring touches the shell it sends an energy wave through that structure. Similar way wire that moves through the frame sends sound if it touches its frame. 

So the dark energy could form when the dark matter "flashes". If that hypothetical WIMP is a donut-shaped structure. That dark energy can form when the superstring hits it. 

We can say that the origin of the unknown wave movement is always in unknown structures. When the superstring touches the ring-shaped wave that we call a photon it sends wave movement. And then we can start to think about the hypothetical weakly interacting massive particle, WIMP that particle can have a very low energy level. The question is if WIMP is so low low-energy particle that it cannot send reflection. Where that particle puts its energy. 

So if the superstring forms photons around it, it's possible. It can also turn other particles invisible. When a superstring travels through some particle it can move energy out from it. If that happens fast enough, the particle cannot send reflection from its shell, because the superstring transports energy out from the particle very fast. So there particle's shell has no time to send reflection. If particles can pull superstrings over them. Those particles turn also invisible. 

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

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

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

https://en.wikipedia.org/wiki/String_(physics)

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

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

Quantum games and teleportation.

"A team used a laser-powered quantum computer to play a theoretical game that exploits quantum entanglement, showcasing how even today’s small-scale devices can outperform classical computers under the right conditions. Credit: SciTechDaily.com" (ScitechDaily, Quantum Telepathy Goes Real: How Lasers and Ions Outsmarted Logic)

Quantum entanglement, or quantum teleportation (or, quantum telepathy) is one of the most promising, secure, and difficult communication methods. The logic of quantum teleportation is introduced in quantum games. The game looks a little bit like a chess or oak game. Two players are sitting in different rooms and they try to impact two buttons with each other. The problem with those players is that those buttons can sit on billions of levels. 

There are billions of vertical and horizontal positions where those buttons can be. The players can make rules for the game before they start to play. The players can make deals. The beginner will try to hit the button. That is in the square b4. The problem is that the layer or square b4 has an imaginary part. That means the b4 square is like a tower with multiple vertical levels. 

Or when we think about the precise position of the particles in certain energy levels those particles can send different wavelength wave movements than it is calculated. That means that the b4-tower is like Pisa's leaning tower. The sender must send the information precisely into the targeted layer and targeted point. The difference between those quantum towers is that they wobble all the time. 

If there are no beginning adjustments we can imagine a situation where those gamers try to put ones and zeros to the papers. And they try to get matching forms. Those numbers should be precisely at certain points. On the paper. In quantum simulations, those players must use imaginary- or complex numbers. Those numbers might have even thousands of imaginary parts or dimensions. 

Leaning tower of Pisa. 

When we think about quantum entanglements we can think that we try to make the entanglements between two peans or sand bites on the floors between two Pisa leaning towers. We don't know the precise floor. We don't know which of those soundbites is identical to the transmitting particle. 

We even don't know what the receiving and transmitting particles look like. We must find the right sand bite on the tower and then transmit data to it. And those tower's positions change all the time. 

The quantum entanglement must be made using the instructions that the players gave before that experiment. 

Those levels are the energy levels of the particle. The horizontal level means the wavelength that the particle sends. The problem is that the gamers must give precise information about the energy level, the position, and the wavelength of waves that the particle sends so that they can put particles in a superposition between each other. The problem with theory and reality is that the system cannot precisely control the beginning position of the particles. 

Those gamers can use the messenger to help each other to adjust the position of the button. The big problem is that information can turn old if the messenger is slow. The receiver can tell the position of the receiving particle to the sender by sending a messenger to tell it. However, the position of the receiving particle is changed before the messenger travels to the transmitter.  

The system must put those buttons or particles in superposition and quantum entanglement before they can send information through the quantum channel. If there is some other particle, energy field, or some kind of radio burst or even gravity wave hits that channel the quantum entanglement aims information in the wrong direction. In that kind of system, information travels in the quantum string. That quantum string is the weakest part of the quantum computers. When something hits in it, that thing cuts the information flow. 

When the quantum computer plays that game it uses ions and photons that it manipulates with laser beams. That kind of system is one of the most powerful systems in the world. The fact is that in the race between quantum and binary computers, the binary computers beat quantum systems in simple calculations. But then there is the limit of the complexity and after that limit, the quantum computer beats the binary system. The problem with quantum computers is simple. It must form the quantum entanglement before the data transmission can begin. 

 https://scitechdaily.com/quantum-telepathy-goes-real-how-lasers-and-ions-outsmarted-logic/

New supermaterials are game-changers.

"A section of the atomic structure of a cadmium selenide nanoparticle (left) with an incorporated foreign mercury atom; and an artistic representation of a highly magnified nanoplatelet with mercury defects at its active corners (right). Credit: B. Schröder/HZDR" (ScitechDaily, What Happens When You Swap Atoms? A Nanotech Revolution Begins)

Nanotechnology is the game changer. An ability to swap atoms precisely in the structure opens new tools for material technology and medical systems. Intelligent proteins that store their movement series and then make those movements backward make it possible to create nano-size robots that can go into individual cells. The knowledge of the weak force makes it possible to create things like materials that can repair themselves. The ability to connect memristors in the structure allows create of intelligent structures. 

The atom swapping and ability to affect the atom's ionization is useful in the layers like blades. 

That should remove things with very high accuracy. The idea is that the edge of the blade is made of ions. When the blade hits something electrons fall to fill those holes. 

And that makes the energy impulse to that edge. Nanotechnology requires the ability to create impressive things. 

Like nano-structures that conduct energy only in one direction. The idea is that the energy can move only one way if there are so-called energy stairs away from the energy hilltop. If the energy that travels from the hilltop is very powerful it transports those stading waves away.  But then energy must slide over those particles. If that does not happen that energy pulls those particles with it. 

"A new kind of memristor mimics how the brain learns by combining analog and digital behavior, offering a promising solution to the problem of AI “catastrophic forgetting.” (ScitechDaily, A new kind of memristor mimics how the brain learns by combining analog and digital behavior, offering a promising solution to the problem of AI “catastrophic forgetting".)

This makes it possible to connect computers and material structures to intelligent materials. And install data handling capacity into other materials.  

Supermaterials are things that can conduct impact energy out from structure very fast. If we think about saucer-shaped structures that edge is at a very low energy level and something hits the middle of that structure. That thing allows structure to conduct the energy out of it.

When we think about things like energy-absorbing materials there is the possibility to make materials that tie all energy in it's structures. But the next problem is that. If the energy level rises too high in the structure forms standing waves that push its particles away. And breaks the structure. If the system can remove or suck those standing waves away it will stand against almost all possible temperatures. 

The thing that destroys material is the standing wave that forms between its particles. The standing wave forms when material releases its energy. So the thing that destroys structure is not the heat or energy. The thing that destroys material is the end of the energy pump. When the energy pump ends particles in the structure release their extra energy. And that energy forms those fatal standing waves. But if the system can suck those standing waves out. That makes the structure stand. 

In some possible way to handle temperature is the thermal pump that transfers energy binder through the materials. The system can use things like airflow, electron flow, or laser beams that travel in the material. Those things will transport energy out from the material. 

It is also possible to create a structure that creates a standing wave or infrared wall that denies heat or IR radiation travel through that wall of coherent IR radiation. The long wires can move in and out of the material like a conveyor belt. It takes energy with it. And transports it to medium. 

"Artistic visualization of a crystalline rod made of the semimetal ZrTe5. There is a heat gradient from one end to the other. In its center, giant oscillations in its heat conduction are toggled by the magnetic field, which is generated by the electromagnet below. Credit: B. Schröder/HZDR" (ScitechDaily, A Quantum Metal Just Changed What We Know About Heat)

Schrodinger's cat state in the material makes it possible to create the nano-size diodes. In that state where the material is hot and cold at the same time energy travels in one direction. Those diodes can revolutionize the superconducting technology. 

The Schrödinger's state in material research. 

We can say that Schrödinger's state in material is that. That material is hot and cold at the same time. The heat travels to the cold part. That allows the material to stand against ultimate temperatures. We can describe Scrödinger's state in material by using a space probe as an example. If the space probe goes near the sun it melts because of the heat. But if the probe has a place where it can put that thermal energy. 

Theoretically, it can travel inside the Sun. The answer to the heat problem could be the extremely long wire that can transfer heat energy out from the probe. But there is another way to make the energy dump. That dump requires nano- or quantum balls that store energy inside them. So the system transforms thermal energy into kinetic energy. 

The new quantum materials are revolutionizing our way of understanding things like heat. The new types of quantum materials can create an energy flow that transports heat out of the system. That phenomenon is possible in the ultra-cold systems. But maybe that research brings us new products. 

https://scitechdaily.com/this-brain-inspired-memristor-could-finally-solve-ais-catastrophic-forgetting/

https://scitechdaily.com/a-quantum-metal-just-changed-what-we-know-about-heat/

 https://scitechdaily.com/weak-forces-super-materials-the-breakthrough-changing-material-science/

https://scitechdaily.com/what-happens-when-you-swap-atoms-a-nanotech-revolution-begins/

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

Does an electron have poles?

 Does an electron have poles? 

The quantum entangled electrons created a quantum magnet or triplon. That quasiparticle caused an idea about the question: Is there some kind of asymmetry in the electron's poles? Electron is a negative particle, which has multiple negative poles. That thing causes spin 1/2 that is common for one, or monopolar fermions. Because an electron has multiple poles that deny its full rotation. 

Artistic illustration depicts magnetic excitations of cobalt-phthalocyanine molecules, where entangled electrons propagate into triplons. Credit: Jose Lado/Aalto University (ScitechDaily.com/Tricky Triplons: Scientists Create Artificial Quantum Magnet With Quasiparticles Made of Entangled Electrons)

"A single point in space can rotate continuously without becoming tangled. Notice that after a 360-degree rotation, the spiral flips between clockwise and counterclockwise orientations. It returns to its original configuration after spinning a full 720°." (Wikipedia/Spin)

The electron's spin.  When an electron wobbles back from the up position it releases the photon.  An electron is a monopolar particle that denies the full spin. It is still possible that the electron has weak electromagnetic  N/S polarity. 

But if we think that there is some kind of asymmetry in the number of those poles, we might think that the electron may have weak double polarity. So in that model electron has N and S poles, but another of those poles is extremely weak. That thing makes it possible to make those quantum magnets. 

Or it explains why those quantum magnets do not fly away because of electromagnetic repel. The question is the quantum magnet form because there are N/S poles in the quantum field that surrounds the electron pair, or is its source in those electrons? However, the asymmetry of the number of the electron's poles on both sides of its wobbling axle makes it possible to connect electrons. 

The triplon forms when there is a weaker point or pothole in the quantum entangled electron pair's quantum field. That pothole pulls the entirety that is two electrons and their quantum field to the point where researchers want to put it. This quasiparticle has multiple uses and it can revolutionize quantum computing and quantum information technology, as I wrote sometimes before. 

https://scitechdaily.com/tricky-triplons-scientists-create-artificial-quantum-magnet-with-quasiparticles-made-of-entangled-electrons/

https://en.wikipedia.org/wiki/Spin_(physics)

Can we rule out the Big Bang?

The Big Bang was the case, where matter got its form. So it was the beginning of spacetime or was it? Was there dark matter before the universe? 

Unknown things like dark matter and dark energy are causing questions about the universe's begin. In some models, the Big Bang was the case when the dark matter took the shape of visible material. And that thing makes the Big Bang a very interesting thing. Because if that is true the Big Bang was the case where one form of the material turned into another. 

The thing, that makes the Big Bang mysterious is that matter cannot form from emptiness. The Schwinger effect where matter forms from the wave motion, require that the wave motion exists. And there must be some kind of source for the wave motion. 

The Schwinger effect requires that two quantum- or electromagnetic fields are impacting together or some force turns the superstrings turn into a ball-shaped thing. A superstring is a thin quantum field that is traveling in space. The Schwinger model means that the material cannot be without wave motion. And wave motion cannot be without ball-shaped particles. 

The Schwinger effect means wave motion and particles are two sides of each other. So wave motion and particles are the same things. And the thing that makes the Schwinger model very creepy is that the Schwinger effect always forms particles and is anti-particle. So if the Schwinger effect forms the universe, that forms two universes. 

If we think that the black hole turns into an X- or gamma-ray pulsar. It means that its rotational axle turns similar to neutron stars or pulsars. That thing forms an X- or gamma-ray pulsar. If the black hole's rotation axle turns to its equator and the polar spin continues that black hole starts to act like a pulsar. 

But the energy level of that kind of pulsar is much higher than regular pulsars. That thing can form the case where the Schwinger effect can form a material that we cannot see. The idea is that there is a small area in the black hole where is no gravitation. And if the quantum bridge crosses that area the black hole can start to cross its nucleus. 

And then that bridge makes wave motion travel through the black hole. The idea is that the fast rotation motion along with extremely high centripetal force. Make that string antenna that conducts energy out from the black hole. The fact is that the universe is the combination of at least two main quantum systems. The invisible system and the visible system. Or actually, there are at least three different quantum systems. 

*Dark energy: an invisible wave motion. That rips the universe into pieces.

*Dark matter: an invisible gravitational effect. The thing that forms dark matter is unknown. There is suspicion that those things could be some kind of virtual particles. 

*Visible material and wave motion. Those things are forming the visible universe. 

So if dark matter is the virtual particles or so-called wormholes that thing causes an interesting idea. Is the cosmic web the dark matter? If those strings are forming because of the cosmic vacuum channel that explains the dark interaction. In that model, fast-moving particles like electrons can form the electromagnetic- or quantum vacuum tunnel. 

The idea is when an electron moves very fast it pushes quantum fields from its route. In the case, where the second electron follows the first one very close the quantum channel cannot be closed. And if the quantum whirl starts to rotate around that channel, that thing causes the situation where that quantum channel cannot fill. So that thing is called a wormhole if it's true. 

The role of dark matter is one of the things that is interesting. Dark matter is the gravitational effect. That is the only thing that we know about its shape. 

There is a possibility. That dark matter is the virtual particle. That hypothetical virtual particle forms when extremely fast spinning particles are starting to expand. 

When non-elementary particles like hadron spin. The outer quarks move outside from the center quark. That thing expands the length of the quantum tunnels between quarks. And then those quantum bridges are acting like antennas that are harvesting more energy levels to those particles. And that means the energy level and weight of the particles of that fast-spinning hadrons are turning higher. And that material is only too heavy. 

Or there is forming some kind of quantum bubble. Where the energy level or temperature is lower than the temperature of that particle is lower than the environment where they are. If dark matter is a matter that temperature is lower than the cosmic background or even lower than zero kelvin we cannot see that material. 

Or if we think that dark matter is an extremely fast-spinning electron there is a possibility that there are forming holes in that quantum field. In that case, the lower energy bubble pulls energy inside it. And that means if that kind of bubble is stable. It will pull radiation inside it. So that outcoming radiation will keep dwarf galaxies in their form. 

The idea of cosmic inflation is forming the theory that the universe is in a cosmic vacuum. That means energy travels from the higher energy universe to space around it. This thing means that cosmic inflation is the energy flow out from a bubble where all visible material exists. 

https://scitechdaily.com/can-cosmic-inflation-and-the-big-bang-be-ruled-out/

The new honeycomb-like quantum material has new kind of abilities.

The image above introduces how the new honeycomb quantum material behaves. The text below the original image goes like this "By exposing a honeycomb-like material with a specific kind of magnetic field, yellow arrow, researchers can create order among the loop currents, light blue, within that material. Electrons, in green, can then pass through the material much more easily. Credit: Oak Ridge National Laboratory" (ScitechDaily.com/Molecular Beehive: Physicists Probe “Astonishing” Morphing Properties of Honeycomb-Like Quantum Material)

The next generation of quantum materials can make layers invisible and allow them to make crafts that act like UFOs. And that thing makes quantum technology more powerful than we ever imagined. 

Quantum materials can also use in quantum computers where the quantum processor is connected to the core material. And that makes it possible to create long-distance probes where the entire craft is a quantum computer. That kind of system can operate at Kuiper Belt. 

The thing is that this kind of material can be key to even more astonishing materials where all electrons are in synchronized positions. But what happens, if all electrons on the material's core are precise at the same position comparing their atoms? 

That thing would create a new type of material that can conduct energy and light in a certain direction. The diagram of that material could be similar to the image above, but the blue arrows would be electrons that are orbiting their atoms synchronized. 

That thing makes it possible to conduct electromagnetic fields and photons through that kind of quantum version of the Gauss track. If that kind of structure is at the outer layer of the disk-shaped object that thing allows the creation of the system that makes the object invisible. 

The idea is that the system uses counterwaves to suspend the echoes from its core. And that kind of quantum stealth system can operate in the area of visible light. So that kinds of systems can make an object invisible. 

The quantum layer makes the new type of ion systems possible. 

But there is a possibility that this kind of system can operate as a quantum ion engine which can change the direction of ions wherever the system operator wants. That kind of system can pull ions over its layer. And that means the craft doesn't need traditional ion engines. The ion flow over the layer will make the craft move. 

That kind of technology makes undersea systems and flying machines more capable than ever before. The quantum layer can operate in both roles, stealth, and engine. 

That kind of futuristic technology can be possible someday in the future. But the fact is that quantum is the technology of tomorrow. It can change the game in every possible way. That kind of quantum material can revolutionize technology in both civil and military systems. And the only thing that limits innovation is the lack of imagination. 

https://scitechdaily.com/molecular-beehive-physicists-probe-astonishing-morphing-properties-of-honeycomb-like-quantum-material/amp/

Image: https://scitechdaily.com/molecular-beehive-physicists-probe-astonishing-morphing-properties-of-honeycomb-like-quantum-material/amp/

https://anewtonsapple.blogspot.com/

Let's talk about lasers.

There is a limit to how powerful the laser can be. The thing that causes this effect is the asymmetry in photon flow. Because, photons are traveling overlapping, that causes internal interaction in laser rays. 

There are always little differences in energy levels of photons that are in the different positions in laser rays. And that thing causes turbulence in the coherent light. In that case, the turbulence causes a lack of energy. 

There is a possibility to increase the power of the laser ray by putting photons traveling in lines. If photons are forming straight wall-looking structures they are not disturbing each other so much. And that thing makes it possible to increase the power of the laser ray. 

The thing that destroys the target is heat expansion. Or actually, the thing in the heat expansion destroys material is the end of the radiation. When energy stress ends, that thing causes the situation where the particle delivers its extra energy as the radiation impulse. That radiation impulse is the thing that destroys the bonds of the material. 

The power of the laser is not as important as people think. The more important thing is how much energy the laser will deliver to the target during the operation. 

The important thing is what kind of radiation it gives. Some lasers are giving short and high-energy pulses. That is knocking the target. 

And other lasers are giving long-term impulse, that suddenly ends. That kind of laser can deliver very much energy to the target even if their energy level is not maximum.  And they can be more devastating than high-power lasers that give only short-term pulses. 

Sources: 

(https://bigthink.com/starts-with-a-bang/laser-energy-limit/)

The compact electron accelerator is possible to make by using laser light.

"An image from a simulation in which a laser pulse (red) drives a plasma wave, accelerating electrons in its wake. The bright yellow spot is the area with the highest concentration of electrons. In an experiment, scientists used this technique to accelerate electrons to nearly the speed of light over a span of just 20 centimeters. Credit: Bo Miao/IREAP" (Phys.org/Compact electron accelerator reaches new speeds with nothing but light)

By pushing electrons by using laser light is possible to accelerate them to the 99.99999993% speed of light. That thing means that those laser-based accelerators can replace magnetic accelerators very fast. 

The laser accelerators can make it possible to accelerate particles by using photons. And that thing makes it easier to make compact accelerated systems. Which are not depending the magnetic field. 

The idea of the photon-electron accelerator comes from the futuristic interstellar photonic rocket. The specific impulse of a photon rocket same as the speed of light. But the thrust is very poor. The medium between photon and ion rockets is the cathode engine. 

In that system, the accelerator will accelerate electrons for making a better thrust. If researchers can make that acceleration by using photons. That thing makes those electron engines more compact than using traditional particle accelerators. 

The photonic accelerator is one of the most brilliant inventions in the world of quantum. The laser rays or photons can transport electrons through the air. And that thing makes those systems suitable for transporting data in quantum computers. 

The system that accelerated electrons used the most powerful X-ray bursts in the world. And this thing limits a little bit the use of that system. 

There is planned to create a one-kilometer long photonic accelerator that can rise the energy level of electrons to 13,5 gigaelectron volts. That thing can revolutionize many things like physics. 

Quantum tweezers are the tools that can revolutionize nanotechnology. 

Quantum lensing is quite a similar phenomenon to gravitational lensing. But in the quantum lens, quantum field as an example electrons turn the direction of light waves. So even if the image above this part of the text originally introduced gravitational lensing. But it also fits for introducing quantum lensing. That phenomenon can use for the thing called quantum tweezers. 

Laser says can act as the photonic billiard stick. That photonic billiard stick can move electrons and other particles in the vacuum chamber. But quantum lensing can make that thing more accurate. 

Quantum lensing is a phenomenon where the atoms or subatomic particles' quantum fields are turning the direction of photons. Chancing that photon's distance from the beginning point of those light tweezers is possible to change our tweezers open or are they closed. If those quantum tweezers work right, that makes it possible to manipulate bonds between atoms in molecules. That thing can revolutionize nanotechnology. 

Electrons at hyper-high energy levels can make the quantum version of gravitational lensing possible. In that version photons or light waves can be shot through the quantum field of that electron. That thing can make it possible to create quantum-light tweezers. This can use to move things like single protons. 

https://phys.org/news/2022-09-compact-electron.html

Image 1: https://phys.org/news/2022-09-compact-electron.html

Image 2: https://en.wikipedia.org/wiki/Gravitational_microlensing

The quantum heat pump can theoretically detect dark matter.

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"An illustration of the device, which consists of two superconducting circuits: a cold high-frequency circuit (in blue) and a hot low-frequency circuit (in red). Here, the current that flows in the red circuit generates an oscillating magnetic field which leads to the photon-pressure coupling".

"By sending in a strong signal to the blue high-frequency circuit, this one is transformed into an amplifier capable of detecting radio-frequency photons flowing in the red circuit with much higher sensitivity. Credit: Researchers" (ScitechDaily.com/Physicists Have Built a Quantum Heat Pump To Detect Dark Matter)

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Above this text, you can see a quantum heat pump. That system is based on the idea of two superconducting circuits with different energy levels. And different frequencies. In that image, they are marked with red and blue colors. 

The red one has a higher energy level than the blue circuit. Or actually, the red circuit is a hot low-frequency circuit. And blue is a cold high-frequency circuit. The red superconducting circuit sends the radio waves to the blue circuit. 

And the low-frequency electric impulses turn into high-frequency signals in the blue circuit. That makes the blue circuit more sensitive than the red circuit. 

And the energy level of those two circuits can be calculated extremely accurately. And if the radiowaves or some other parts of those circuits interact with something that is not visible.  that causes an anomaly in the energy level of that system. 

Normally attempts to create interaction between visible and dark matter are basing extremely high-speed particles or magnetic fields. The idea is that fast-moving particle or wave motion can impact the dark matter causing an interaction that is visible in the changes in energy level. 

But there is the possibility that dark matter particles are virtual. That means that they might be some kind of whirls in gravitation waves. Or they can be impacting gravitational waves. 

Is it possible that the dark matter particles cannot interact because they tunnel themselves too strongly so that there is no interaction between material and dark matter? But what is the limit of that tunneling? Would that tunneling happen between the superstrings that are like whisks when they are forming particles? Or can dark matter particles tunnel themselves even through the superstring itself? 

There is also the possibility that particles of dark matter are so small but their energy level or their quantum field is so powerful, that dark matter can simply push superstrings away from their route. 

Or maybe those mysterious things are making holes in the superstrings that are forming particles. The interaction between dark and visible material would prove that the origin of the strange gravitation effect is the particle. 

Images and other sources: 

https://scitechdaily.com/physicists-have-built-a-quantum-heat-pump-to-detect-dark-matter/

https://artificialintelligenceandindividuals.blogspot.com/

Quantum computers and their use as the instrument of destruction

(Picture 1)

Kimmo Huosionmaa

Quantum computers are mentioned as the threat of international security, and here we must say, that the problem with those extreme fast computers is that they can be used as the tool for simulating nuclear detonations, and those computers would increase the developing new kind of nuclear warheads and chemical agents, what are invincible in detectors.


Also, the new type of biological weapons can be created, and some of those new types of viruses are made by using the latest technology of human DNA. Those viruses might be harmless for other people, but when it genomes are connecting with targeted person DNA, that virus transfers to the lethal organism. Those viruses are like “Chimera”-virus, but it can be harmful to one single individual person of all mankind.


Those selective viruses are the terrifying weapons, what the person ever can get in hands. But when we are talking to produce those weapons, we must have nanotechnological methods to build the artificial DNA, and the function of those genomes must be very well known, that they can connect in the particular point of the cell’s DNA.


And to make this process successful, must the order of base pair and single bases of DNA order very careful, that the function of the virus would be extremely calculated. And for those simulations would be needed the quantum computers. Also, code-breaking would happen very fast, if the instrument of those operations would be the quantum computer.


But when we are talking about risks of the quantum computers, we must say, that every tool has own risks. And somebody claims, that the discussion of those extremely fast supercomputers goes hot because China and Russia haven’t got the technology to produce those computers. Here we must say, that China has the fastest supercomputer on Earth, and this is why this explanation would limping. And of course, 50 megaton nuclear bombs would also danger the security of the human race.

Sources:

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

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

https://www.top500.org/list/2017/11/

Picture 1:

http://www.dandemutande.co.zw/wp-content/uploads/2017/10/Server-Room-1.jpg


https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/quantum-computers-and-their-use-as.html