Can antigravity be real?

"The gravitational behavior of the Earth around the Sun is not due to an invisible gravitational pull, but is better described by the Earth falling freely through curved space dominated by the Sun. The shortest distance between two points isn’t a straight line, but rather a geodesic: a curved line that’s defined by the gravitational deformation of spacetime. The notion of “distance” and “time” is unique for every observer, but under Einstein’s description, all frames of reference are equally valid, and the “spacetime interval” remains an invariant quantity." (Big Think, Ask Ethan: Why is there no such thing as antigravity?)

Theoretically, it is possible to create antigravity by putting particles into spin very fast. That spin binds energy from quantum fields around those particles. But then. If those particles spin, stop. They release energy that they bind during the spin. If. Those particles are things. That. Forms a gravity field, which makes the antigravity possible. 

Can antigravity be real? The answer is no. But theoretically, we can try to explain the theoretical model of antigravity. There is no such thing as negative mass or negative energy. But why is that thing? The model of gravity suggests that spinning particles. Form energy pothole that we see as gravity. This model suggests. That gravity forms when particles spin and bind energy from their environment. And then the other fields will fall to fill the hole that the spinning particle makes in the quantum field. This means that those fields pull. Particles. And other things with them. That thing makes the pothole, or causes the curvature in the spacetime. That. We know it as the gravity field. 

"An animated look at how spacetime responds as a mass moves through it helps showcase exactly how, qualitatively, it isn’t merely a sheet of fabric. Instead, all of 3D space itself gets curved by the presence and properties of the matter and energy within the Universe. Space doesn’t “change shape” instantaneously, everywhere, but is rather limited by the speed at which gravity can propagate through it: at the speed of light. The theory of general relativity is relativistically invariant, as are quantum field theories, which means that even though different observers don’t agree on what they measure, all of their measurements are consistent when transformed correctly." (Big Think, Ask Ethan: Why is there no such thing as antigravity?)

The antigravity can be the situation. Where. Those spinning particles stop spinning. That makes them release energy. That energy can be the antigravity, because gravity forms when spinning particles bind energy into them. And that means the antigravity is the opposite effect of those particles. In that case, the same particles that bind energy and form the gravity pothole while they spin. Simply. Release that energy. But can something like a black hole completely stop or change its direction? Normally, particles are spinning 1/2 rounds. 

When those particles are spun 1/2 round, they start to change their direction. That causes an effect. Those particles must release their energy at the point. That. They slow down. And. Start to turn. A particle releases photons or energy waves. 

"The way to make a realistic warp drive involves manipulating the energy field and the spacetime curvature of the region around a spacecraft. By compressing the space in front of you at the expense of rarifying the space behind you, it’s possible to shorten the distance between the point of origin and your destination. This requires some form of negative mass/energy to work, however."(Big Think, Ask Ethan: Why is there no such thing as antigravity?)

Like. Other wave movement types. The gravitational waves form in cases where the center of gravity releases or binds energy. When a particle’s spin changes or slows, it must release energy. So, when the gravity center, like a black hole, changes its spin speed, that forms interference in the fields around it. So the antigravity would be the effect that the spin of all particles in the gravity center stops. And sends the wave movement that the wavelength is as long as gravity waves. This kind of effect could theoretically fill that pothole. 

The thing is that if the particle has spin that is higher than one, that particle would turn invisible. So, we can think that the particles. That spin has no limit will be invisible. Because. Only cases. That. The particle sends a wave movement. Or photons make it visible. But a particle is invisible when it binds energy.  The thing that makes a black hole visible is the halo and transition disk.  That is when a black hole absorbs energy from around it. This means the energy level of those areas is extremely high. Sometimes the radiation level from those halos and material disks rises so high that those things push material away from the black hole.

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

Spacetime interacts. Around black holes, just like the theory of relativity describes.

"Astronomers have finally caught a spinning black hole in the act of twisting the fabric of spacetime itself. The discovery came from watching a distant star get torn apart, forming a glowing disk and powerful jets that began to wobble together in a steady rhythm. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Astronomers Watch Black Hole Twist Spacetime As Einstein Predicted Over 100 Years Ago)

For the first time in history, researchers saw how black holes twist spacetime. This means that black holes behave as Einstein predicted in his Theory of Relativity. That thing might be bigger than nobody expected. Einstein started to work. On the repairing tool that would fill the hole in Einstein’s Theory of Special Relativity. Theory of Relativity or E=mc^2. That theory notes the curvature of the universe near gravity centers. This means that the straight universe does not exist. Every gravity center forms a pothole around it. This is one thing. 

The E=mc^2 means

E=Energy

m=mass 

c=speed of light 

That explains why nothing can travel faster than a photon. When an object travels over the gravitational pothole.  Without depending on how strong that gravity is, it takes energy from that pothole. Or we can say that the surface area. There, the quantum field loads energy. Turns larger. When the object tries. To. Get out of that pothole. It will release energy. Or, it transfers energy to the quantum field. The reason why the object that travels across the universe loses its energy is this. The energy level in the universe decreases. When. A particle or object falls into a gravitational pothole. 

It gets energy. From the quantum field. Around it. Because the energy field around the particle turns weaker, the particle that falls into the gravitational pothole always loses more energy than it gets. When the speed of the particle rises, it travels over more energy potholes or gravity potholes. Those potholes. Pull energy out of the particle. This means that space and time, or spacetime, are always somehow curved. If an object wants to rise from the gravitational pothole, it must get as much energy as it can rise above the edge of the gravitational pothole. 

If. You want to make a particle that travels faster than the speed of light. Researchers must. Just create the spacetime. There is a lower scattering effect. This means that researchers must aim the rocket’s exhaust gas through the WARP bubble. In this case, the rocket’s exhaust gas can be ions, photons, or neutrinos. The system must only push electrons or neutrinos by using lasers. 

"An artist’s impression depicts the accretion disc surrounding a black hole, in which the inner region of the disc wobbles. In this context, the wobble refers to the orbit of material surrounding the black hole changing orientation around the central object. Credit: NASA" (ScitechDaily, Astronomers Watch Black Hole Twist Spacetime As Einstein Predicted Over 100 Years Ago)

The Theory of Relativity describes that the speed of light, or the cosmic speed limit, can be broken. Once in history. The particle. Called: the muon neutrino. Seems to travel faster than the speed of light. The reason for that was a cable error. But there is another, more interesting explanation. There could be a particle that releases energy as an impulse. 

That impulse forms the short-term warp bubble. There, the scattering quantum field is less dense. This bubble forms a less dense spacetime around the particle. This means that the photon can travel faster in that bubble than it travels outside that bubble. So, the speed of light is always an unbreakable cosmic speed limit. But the energy impulse that particle sends from space, where light can travel faster than outside this bubble. But could a muon neutrino make that kind of bubble? This is the question. That seems unable to be solved. 

The WARP bubble acts similarly. As. An air bubble. Behaves in the water. The speed of light in air is higher than the speed of light in water. So photons and other particles can travel faster than light travels in water if they are in an air bubble. In the same way. Particles. Can travel in a warp bubble faster than they could travel outside the WARP bubble. 

Simplest way. We can say that the WARP bubble is the particle's own spacetime bubble around the particle. This bubble removes the scattering effect. The scattering effect means. The universe is full of low-energy quantum fields. And particles. The particle or object can accelerate only when energy travels into it.  

“Artistic rendition of a ship with warp drive activated” (Wikipedia)

Those fields pull energy out from objects. And this means that when an object’s speed is accelerating. Energy transfer out from the object accelerates when it crosses more of those energy fields. Finally, the energy flow turns away from the object. When. Energy flow turns away from the object that separates the energy impulse from it. This causes. The turn of the energy flow. In the critical moment. And that denies crossing the cosmic speed limits. 

Acceleration is an interesting phenomenon. When. We look at curves. About. The accelerating rockets, the acceleration turns slower as the rocket’s speed rises. The reason for that. It is a feature of the rocket engine. The rocket cannot fly faster than its exhaust gases. When. The rocket’s acceleration starts. All particles in the exhaust gases are participating in the acceleration process. The speed of exhaust gas is called the intrinsic impulse. 

But. When rocket acceleration continues, fewer particles participate in the acceleration. In the final stage, only the fastest particles in exhaust gases participate in the acceleration. This is the reason why those exhaust gases will not increase. The speed of the rocket. Over the cosmic speed limit. There is no particle. Whose. Speed is higher than the speed of light. 

But there is one thing that can allow us to surround the rule of the cosmic speed limit, which is that nothing can fly faster than a photon. Researchers must only create a spacetime where the speed of light is higher than the speed of light outside that synthetic spacetime. In. That model. The engine. It can create a warp bubble. Using antimatter annihilation outside the engine. Then the engine can inject. The ion injection that is accelerated by using photons in that warp bubble. 

This allows those ions travel faster than they normally travel. Then those ions impact the warp-bubble wall. In. A small moment. The ion or electron can travel faster than it normally travels. Or even faster than light. The particle will send Cherenkov radiation during that moment. The system can give an extremely high intrinsic impulse. If the warp bubble touches the shell of the craft, the system can pump energy to the craft and increase its speed. 

https://scitechdaily.com/astronomers-watch-black-hole-twist-spacetime-as-einstein-predicted-over-100-years-ago/

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

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

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

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

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

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

A Saturn-sized rogue planet travels in space.

"A rare combination of Earth- and space-based observations has revealed the true mass and location of a rogue planet drifting through the galaxy. The Saturn-sized world likely formed around a star before being violently ejected into interstellar space. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, A Saturn-Sized Planet Is Drifting Through Space Alone)

Rogue planets are wandering around the universe. Those planets have no stars, and they can enter other solar systems. When a nova or supernova eruption occurs. The planet. That is, in a very distant orbit to its star. Can. Be flung into interstellar space. Those explosions are very violent, but the shockwave can push distant planets. 

To the journey that ends somehow. Another star can capture those planets, or they can fall into black holes. But when we think about our future. Those rogue planets cause an existing danger. If they travel to our solar system. The large rogue planet can pull even large objects out of their trajectory. So, maybe. Someday, some large rogue planet will force us to develop an antimatter bomb. That can destroy that planet before it destroys us. 

Velikovsky’s Venus and the lost planet Vulcan.

What if Velikovsky’s Venus was a rogue planet that fell into the Sun? And what if the mythic Vulcan planet was a planet that fell to the Sun because of some cosmic impact? This doesn’t mean that those things are connected to each other. But. They are interesting things to think about. The fact is that the planet can fall into the Sun because of its atmospheric friction. A large asteroid can be mistaken for a planet. 

But then. An interesting idea. Came to my mind. That thing is about a theorem. Which was written by Immanuel Velikovsky, who claimed that the things. That happened in the Old Testament, in the Holy Bible. Like. Splitting the Red Sea happened because. Some other planet traveled across our solar system. Velikovsky suspected that the planet was Venus, but Velikovsky was wrong. Today, Velikovsky is described as a pseudohistorian. But what if Velikovsky had written the word “Rogue planet” instead of the word “Venus”?

In the time of Velikovsky, there was no idea of rogue planets. This means that it's possible. If a rogue planet traveled across the solar system and fell into the Sun. That would not leave any mark on the solar system. 

Another interesting idea is connected to Vulcan, the mythic planet inside Mercury’s trajectory. What if that mythic planet simply fell to the sun? We know that Vulcan does not exist. But maybe in history. There were planets that were impacted. With an asteroid. And then that asteroid could push that planet toward the Sun. But as I wrote, planets can also fall to stars without dramatic events. Or it can vaporize. 

When the flare eruption hits the planet. That can turn a planet into vapor. Especially if it's in melted form. The Vulcan, if it existed, must be pure lava. The solar eruption can destroy this kind of planet very fast. It's possible that Vulcan simply evaporized when it moved close to the sun. 

https://scitechdaily.com/a-saturn-sized-planet-is-drifting-through-space-alone/

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

https://en.wikipedia.org/wiki/Vulcan_(hypothetical_planet)

Sterile neutrino is ruled out.

"A high-precision neutrino experiment has delivered a decisive result that challenges a long-standing explanation for mysterious signals seen in earlier studies. By carefully dissecting how neutrinos transform as they travel, researchers have narrowed the range of viable theories and set the stage for a new phase of investigation. Credit: Stock" (ScitechDaily, A 30-Year Physics Mystery Takes a Sharp Turn: This Bizarre Particle Doesn’t Actually Exist)

A sterile neutrino means a neutrino that formed straight from electromagnetic fields. If that particle exists, that means it formed in the sensor itself. The thing. That can form. The neutrino. Directly from wave movement. Are the Schwinger effect and the wave-particle duality. Even if a sterile neutrino exists, it will not remain sterile. For. A long time. And that means it's almost impossible to confirm those sterile neutrinos. 

Neutrino is the second generation of fermions. Or, sharper saying, neutrinos are members of the lepton family. Leptons are electrons, muons, and tauons. Those particles form in a weak interaction with leptons. We know three types of neutrons. Tau neutrino, electron neutrino and muon neutrino. Those particles are transformations to electrons, tau particles, and muons. 

Or, they form in reactions from muons, taus, and electrons. This means that we don’t actually know neutrinos. This means that. We don’t know. The neutrino that formed in the Schwinger effect. We don’t know. The neutrino, that form. It is direct. In. The wave-particle duality. Neutrinos are formed in the interaction when the weak nuclear force interacts with leptons. 

Sterile neutrino is ruled out, at least for a while. For being sterile, the neutrino must form in a sensor. Otherwise, if a neutrino travels only a short distance, it turns dirty. Neutrino takes quantum fields with it. This means that the neutrino turns dirty. We can call those quantum fields. As “quantum plague”. 

And. Even if a neutrino stays in a static position, it will turn dirty because the “quantum wind” makes it messy. A sterile neutrino cannot exist in our universe, or its existence remains for such a short time. That means we cannot see it. So even if a neutrino forms in the fusion reactor. It turns dirty before it reaches the sensor. The problem with sterile neutrino hunting is that nobody has seen a sterile neutrino. Reseachers see those dirty neutrinos quite often. 

Quantum fields touch those neutrinos. And those fields are left as a plague on those neutrinos that neutrino sensors detect. But the thing that makes it almost impossible to detect and confirm the sterile neutrino is that. The system must know what kind of fields are touched on those neutrinos. So, the system calculates the thickness of that quantum plague. 

If reseachers want to find sterile neutrinos, they must know how much energy, or how thick the quantum layer is through which neutrinos are collected. While their journey to Earth. But. For making those calculations, the system must know the precise point of the Big Bang, or where the neutrinos formed. Then the system must know all quantum fields between the point where the neutrino formed. And then it can calculate the quantum field that is on the neutrino. But as we know, this kind of mission is impossible. Another thing that rules out the existence of the sterile neutrino is the Pauli exclusion principle. 

“In quantum mechanics, the Pauli exclusion principle (German: Pauli-Ausschlussprinzip) states that two or more identical particles with half-integer spins (i.e. fermions) cannot simultaneously occupy the same quantum state within a system that obeys the laws of quantum mechanics. This principle was formulated by Austrian physicist Wolfgang Pauli in 1925 for electrons, and later extended to all fermions with his spin–statistics theorem of 1940.” (Wikipedia, Pauli exclusion principle). 

If. We expand this model to the universe’s scale. That means that because a neutrino is a fermion, there can be only one sterile neutrino in the entire universe. The Pauli exclusion principle means that there are no two fully identical neutrinos in the universe. So, if the sterile neutrino exists, that means there cannot be two of them. All sterile neutrinos. Are identical. That situation is impossible. If. We want to follow the Pauli exclusion principle.  

https://scitechdaily.com/a-30-year-physics-mystery-takes-a-sharp-turn-this-bizarre-particle-doesnt-actually-exist/

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

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

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

Meissner effect: the electromagnetic levitation.

“A long-standing mystery surrounding an unusual superconductor has taken a decisive turn. By carefully applying shear strain to ultrathin crystals of strontium ruthenate, researchers found that its superconducting transition temperature remains almost completely unchanged. Credit: Stock” (ScitechDaily, A 30-Year Superconductivity Mystery Just Took a Sharp Turn)

The Meissner effect is the key. Into. Ultimate stealth. And low noise flying. In the second image, you can see how the energy field or quantum field travels past the object, causing the lifting effect. The Meissner effect causes ideas. If researchers can create the material that avoids the situation where electron shells fall closer to the atom's core, it would make it possible. To create room-temperature superconductors. 

In superconductors, the material is in the Bose-Einstein state. That means their energy level is very low. The distance of electrons to the atom’s core is very long. When. Outside energy pushes atoms. It pushes. An atom’s electrons. To the atom’s core. When the outside quantum field transports energy into an atom. That effect. Pushes electrons. Close to each other. And the atom’s core. That raises energy density in the atom. That pushes atoms away from each other. And that destroys the superconducting.  

*********************************************************************

“Diagram of the Meissner effect. Magnetic field lines, represented as arrows, are excluded from a superconductor when it is below its critical temperature.” (Wikipedia, Meissner effect)

T= Real temperature

TC=Temperature critical. Critical temperature is the point. At which the object can form the surrounding quantum field. Which closes its particles inside one quantum field. The idea of the Meissner effect is that every particle is inside the quantum field. The particle that can be an elementary particle or atom is in the middle of its quantum field. When. 

The quantum field moves. The position of the particle in relation to the field changes. Because particles attempt to position themselves in the middle of their quantum fields. Moving that field. Moves particles. Theoretically, it is possible to create a quantum system that moves the craft in a way that seems to break natural laws. The system can hover using the Meissner effect. 

This requires that the entire craft’s shell turn into a superconductor. Then the system must only adjust the position of the quantum bubble that surrounds the superconducting craft. This means that the object attempts to position itself in the middle of the bubble. This thing moves the craft. 

The idea is a “stolen” or adjusted version of the idea that there is a dark matter halo that moves a galaxy. The dark energy will not affect matter. But if the source of dark energy is in dark matter. The dark matter. That sends dark energy, that is the wave movement. 

Dark energy. With. The source is in. Dark matter particles can affect. To Other. Dark matter particles. Dark energy moves. The dark matter halo around the galaxy. And because the galaxy attempts to position itself. Into the middle of the dark matter halo, moving that halo moves the galaxy. 

*********************************************************************

The Meissner effect in the superconductor is possible because particles in the superconducting material are in an extremely low-energy condition. There is no oscillation between particles. This means energy from outside travels to the superconductors. 

And then that energy pushes particles closer together. Those particles are inside one. A very large. Quantum field. When energy starts to travel from below to that object, those particles act. As. One entirety. This thing forms. An. An electromagnetic low-pressure or lower-energy area above the superconductor. The energy that comes from below pushes a superconducting object above the ground. The reason why the same effect cannot push other objects up is simple. 

The quantum field that pushes objects upward cannot travel between particles at higher temperatures. In the case of superconducting objects, the quantum field around objects doesn’t allow the pushing field travel in the objects. Those are in the superconducting condition. Because. There is no oscillation in the object, and that doesn’t allow the outside radiation to travel between particles. For making levitation, the lifting field must have a pushing effect. 

Into. A so large area that it can affect as many particles, that the electromagnetic shadow pushes the entirety up. The energy must not also travel in the object. When. We think of the possibility. Of using the Meissner effect. As levitation. It's possible to cover the surface with. Large number. Of superconducting particles. Those superconducting points can lift even large objects from the ground. Or they can decrease the weight of the object. 

https://scitechdaily.com/a-30-year-superconductivity-mystery-just-took-a-sharp-turn/

https://scitechdaily.com/physicists-crack-a-new-code-to-explore-dark-matters-hidden-life/

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

Reseachers make new models for dark matter formation.

"A new computational breakthrough is giving scientists a clearer view into how dark matter structures evolve.(ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

"Dark matter has remained one of the biggest mysteries in cosmology for almost a hundred years, shaping the universe while remaining invisible and poorly understood. A new study from researchers at the Perimeter Institute now introduces a computational tool designed to track the evolution of a particular dark matter candidate known as self-interacting dark matter halos. These enormous structures are thought to host galaxies such as the Milky Way." (ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

"The study, published in Physical Review Letters, expands scientists’ ability to explore how different types of dark matter particle interactions influence the growth and behavior of cosmic structures over time." (ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

There is one thing that a self-interacting dark matter halo can interact. That thing is another self-interacting dark matter halo.  The self-interaction means. The collisions and energy release in WIMPs, the hypothetical. Dark-matter particles. 

"Self-interacting dark matter is defined by the ability of its particles to collide with one another, while remaining effectively invisible to ordinary baryonic matter, including protons, neutrons, and electrons. This behavior has important consequences for dark matter halos, which many theorists believe are central to the processes that shape galaxies and trigger star formation." (ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

“Dark matter forms relatively diffuse clumps which are still much denser than the average density of the universe,” says James Gurian, a postdoctoral fellow at Perimeter Institute. “The Milky Way and other galaxies live in these dark matter halos.” (ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

The idea is this: if the dark matter is the thing. That sends dark energy. Dark energy can affect the dark matter halo around the galaxy. That means the dark energy can move the dark matter halo, and the galaxy in the middle of the halo moves with it. So what if the halothermic collapse in the dark matter forms dark energy and then expands the universe? When halothermic collapse happens, the universe’s center or dark matter centers turn denser, and they turn hotter. When dark matter particles, weakly interacting massive particles (WIMPs), are involved. 

Or. Axions send radiation. They send it with the wavelength. That is the same as the particle’s diameter. This means that the halothermic collapse. In the dark matter. Sends radiation that we call dark energy. Dark energy that pushes visible matter away from those dark matter centers. 

“The evolution of self-interacting dark matter halos is governed by a phenomenon known as gravothermal collapse. This process arises from a counterintuitive property of gravity, where systems bound by gravity become hotter rather than cooler as they lose energy.” (ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

“Because self-interacting dark matter can carry energy through particle collisions, that energy gradually flows outward within a halo. As a result, the central region becomes increasingly hot and dense, driving further changes in the structure of the halo over time.”(ScitechDaily, Physicists Crack a New Code To Explore Dark Matter’s Hidden Life)

When we say that the halothermic collapse forms dark energy, we mean that the halothermic collapse increases free energy in the system. That collapse forms a denser or more powerful form when particles of the collapsing halo start. Getting. Closer to each other. And impact on each other. That releases free energy into the system. 

The focus of this research is on the so-called halothermic collapse. And gravity's counterintuitive property. That means when the system that gravity bounds turns hotter. While. It releases energy. This effect forms when the energy in the system decreases. And the particles fall closer to each other. Those particles that are closer to each other release energy. When the form of the halo structure is a ball, the most outer particles fly out from the structure faster than particles that are in the center of the structure. This causes an effect where the center of the structure is surrounded. By. A ring-shaped structure. That ring pumps energy into the ball-shaped halo.

During that process, those particles that flee out from the structure release energy faster than particles in the structure. And that means those particles are closer to each other, which makes energy denser. Those particles start to collide. And send more energy. And particles that flee from structure also deliver part of their energy to that system. At the same time, those particles lose their mass. At the same time, impacts with other particles release more energy. The big question is: how dense does that structure become? 

Could it turn into a black hole? If we follow this model, we find a model. The dark matter starts to pack in the middle of the universe. This means. That dark matter turns hotter. It sends a wave movement that we can call dark energy. So if the dark energy source is dark matter and its halothermic collapse, we can make one decision that can explain the interesting form of dark energy. The idea is that dark energy can interact with dark matter halos around galaxies. Those halos can be far larger than galaxies. And if dark energy moves that halo, it affects the gravity symmetry in the halo, and the galaxy in the middle of it. 

https://scitechdaily.com/physicists-crack-a-new-code-to-explore-dark-matters-hidden-life/

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

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

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

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

Why does everything exist?

   

In the very beginning of time and space. The event. Called: the Big Bang formed interference that caused the formation of matter. The Big Bang was not a single event. It was like a bubble. That fell into one point. And then energy reflected from that point. The Big Bang was like an oscillating bubble. The existence of matter requires that there was wave movement or even a static field in the space before the Big Bang happened. 

The Schwinger effect explains that particles are formed from the electromagnetic field. Or maybe. Some superstrings formed the whirls in the standing fields. There is a possibility. That's all the other wave fields. Like standing gravity waves, they can roll themselves into particles. The wave movement that should have existed before the Big Bang formed resistance. And that resistance formed the wave, which formed bubbles or whirls behind it. Without that resistance, the superstrings, which can be like small quantum tornadoes. Those quantum tornadoes formed quantum dots. That started to collect energy and wave movement around them. 

Maybe the Big Bang formed in the case that something oscillated the superstrings that caused the wave movement that traveled across the universe. The interference in or outside those quantum tornadoes can cause a situation where those small quantum tornadoes or quantum-size wormholes touch each other. And if energy traveled in the opposite direction, it formed the quantum-size electric arc. 

If we follow the model that all types of wave movements can pack into the same point, the quantum-size wormholes can make the quantum-size electric arc. And when we try to mimic the conditions at the beginning of the Universe. We forget that the quark-gluon plasma. At the beginning. The universe. It formed in conditions where the resistance was minimal. There were no such interferences as in the modern universe. 

Standard model with graviton, the gravitational wave transmitter, or gravitational transporter particle. The existence of the graviton is still hypothetical. But there is a possibility that the graviton exists in all particles. The graviton would be a particle that formed other particles around its shell. This means that all particles. Those that have mass should include the graviton. 

So, if the existence of the Universe is. The Schwinger. Effect doesn’t mean that the effect is formed in the electromagnetic field. It’s possible. That there formed hypothetical gravitons in the static field. Then those gravitons started to collect wave movement on their shell. Then those gravitons. Started. To grow into particles that we know as the Standard Model. 

The philosophical question about existence is this: if a bell rings in the forest, does it ring? The main idea is that. Even if we don’t have contact with that bell, we might think that it can ring. But. Otherwise, if the clock hand is removed, that clock will not ring. But we know that there is a clock. Well, there might be a clock in the forest, because we might have seen it yesterday. But otherwise, some other person. Might take it into the pocket. This means we cannot be sure. If. There is a bell still in the forest. Yesterday there was a bell, but now we cannot be sure. The bell exists. And because information cannot vanish. The information about the bell remains.  

If. We try to remember information and quantum theories. The information about that bell exists. But does the bell exist in the form of the bell? We might conclude that the information doesn’t depend on the object’s or space’s physical existence. But if existence requires interaction, the black hole that pulls objects behind the event horizon will remove matter from the universe. Otherwise, the black hole cannot destroy matter or information that is connected to matter. It just removes. Matter's. Ability to interact with its environment. 

When we think about wave-particle duality and the Schwinger effect, where wave movement turns into particles, and particles turn into wave movement. The impacting wave fields can form. The wire-shaped. A fast-spinning “worm” that can explain why. Can't we see the hypothetical weakly interacting massive particles (WIMPs) or axions? The axion is the worm or rope-shaped structure of the traveling quantum tornadoes. Those quantum tori can be the quantum-size wormholes. Who have wrapped themselves around each other. 

When we talk about everything, we talk about matter. Matter is the thing that makes the universe exist. Then we can consider the existence of matter and think that the wave-particle duality is what makes matter exist. And in this moment, we must realize that matter is a condensed form of wave movement. In the same way, whether matter or otherwise, particles can turn into the wave movement, and wave movement can turn into matter. 

This causes one of the most interesting and important questions in the world. That question is a thing. That we don’t see. Exist or not? Does interaction, or visible interaction, determine existence? This means that. We should see things. That. They exist. But being invisible doesn’t mean non-existence. 

The holographic principle means that everything is actually holographic. This means that every type of wave movement can form the hologram. And the gravitational hologram formed the universe. This means that matter is condensed wave movement. 

And particles are actually an extremely dense hologram. So we could theoretically create a so dense hologram. That. It turns into a physical object. We can transform wave movement into quarks. So that means. Maybe someday. That thing called the Schwinger effect. It can turn even larger objects into wave movement and teleport them to other places. 

In modern cosmology, all matter began its existence in the Big Bang. Many times, people ask, what was the energy level of the Big Bang? We should rather ask, what was the relation between the Big Bang and its environment? 

The Big Bang was a series of events that caused interference. That formed whirls. And then those whirls in the energy field formed particles. This type of explanation doesn’t include the expansion of the Universe. This means that in the past it was probably. Particles and particle groups that don’t exist anymore. 

https://bigthink.com/starts-with-a-bang/reality-objective-exist/

https://bigthink.com/starts-with-a-bang/something-instead-of-nothing/

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

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

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

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

https://en.wikipedia.org/wiki/Wave%E2%80%93particle_duality

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

Sterile neutrinos, tachyons, and axions. Can they explain why matter exists?

"Inner view of the large electrostatic spectrometer of the Karlsruhe Tritium Neutrino Experiment (KATRIN), the world’s most accurate neutrino scale. Credit: Michael Zacher/KIT, KATRIN collaboration" (ScitechDaily, Physicists Tighten the Net Around the Elusive Sterile Neutrino)

Reseachers closing the elusive sterile neutrino. The sterile neutrino is a very hard-to-detect particle. The particle itself will be so small, or so different than other neutrinos, that it will not exist for a long time. The sterile neutrino means that there are no quantum fields that left their marks on that neutrino. When a neutrino travels through quantum fields, those fields leave their marks on it. This means the neutrino turns dirty. And this is one of the biggest problems with physics. Neutrino is the next-generation tool for reseachers to make observations. It’s possible that the sensor can remove fields from the shell of the neutrino. 

But the sensor must know. What the neutrino is and what. Is the field. To determine the field that the sensor must detect and analyze, it must know the original values of the neutrino. If. The system knows the neutrino’s original values. Like. Its original energy level. Another possibility is that the sterile neutrino can prove the existence of a wormhole. If a neutrino can travel through the wormhole, it will not take quantum fields on its shell. And that means the neutrino can stay sterile. 

The standard model of physics. There is sometimes a marked graviton. The graviton. It is a hypothetical gravitation wave transporter. The graviton should exist. And sometimes some reseachers suggest that the graviton is the quantum-scale black hole. Another suggestion is that the graviton is the same thing as the axion. If an axion spins very fast, it rolls quantum fields on its shell. And that can explain dark matter, the mysterious gravitational effect in the universe. That can also explain dark energy. When the universe’s energy level turns lower, the axion releases its energy. 

Neutrino beams can also create wormholes in the electromagnetic fields. The neutrino beam can push those fields away their way. And then. This thing. It can make interstellar travel closer to reality. The idea is that the neutrino beam. It makes a hole in quantum fields. And then the energy that comes. Behind pushes particles or craft into the tunnel. 

A neutrino is a fermion type.  Its position is in leptons. So. That means Neutrino should be able to make similar bonds and interactions with other leptons. But there is no evidence that neutrinos form any shell to matter. The weak interaction creates neutrinos. Those neutrinos are: 

1) electron neutrino, νe

2) muon neutrino, νμ

3) tau neutrino, ντ

"Physicists have long suspected that elusive particles known as axions could help explain the hidden matter shaping the universe. While the idea even made its way into popular culture, solving the problem proved more difficult than fiction suggested. Credit: Shutterstock. A new theoretical study suggests fusion reactors could do more than generate energy, they might also produce particles linked to dark matter." (ScitechDaily, Dark Matter Breakthrough: Physicists Crack “Big Bang Theory” Puzzle)

There is a suggestion that dark matter particles that impact each other can form energy. Those impacting dark matter particles. Or. An energy impulse from that particle can form. A hole in the quantum fields. That means energy impulse from axions makes the vacuum or cosmic bubble. Then that bubble collapses. And. The effect is similar to a vacuum bomb. When a bubble or void collapses, it sends an energy impulse. 

To the outside. This means dark matter can play a big role in the Big Bang. But there is one big “but”. That very big “but” means that matter and dark matter should form at different moments. If dark matter formed before visible matter, that means the dark matter interaction could trigger the Big Bang. 

But then. To the mysterious dark matter particles. Called Axions. 

Nobody seen an axion yet. But it's possible. Axions are the mythical dark matter particles. There is something that denies its interactions with other particles. And maybe. The neutrino or sterile neutrino can open the path to the axions. If we think of the possibility that neutrino spin turns extremely fast, and its speed is almost the speed of light. That can press the neutrino into the form of a small “worm”. This means that an axion could be a particle. That is like a small wire or a small worm. The idea is that the high speed, along with the fast spin, turns into a roll. The axion may be like a drill. That travels through all energy fields. 

This allows the particle tunnel itself to pass through other particles. So, the axion could be like a traveling tornado. In some models, the mythical tachyon. The theoretical faster-than-light particle forms the photon when its speed decreases below the speed of light.  

We cannot see tachyon. While. It travels faster than light.  When the tachyon slows its speed below the speed of light, it must transfer its energy somewhere. This means tachyon should form the ring-shaped energy impulse. 

This means the photon would be the quantum shockwave, like a light boom. That is similar to a sonic boom. It is in the molecular world. Then the tachyon that decreases its speed sends another particle. Like. A sterile neutrino or some other fermion or boson. Another thing is that. Maybe. Fusion reactors can tell reseachers something about things. Like. The speed of light and neutrinos. Fusion reactors could form neutrinos just like fusion reactions form neutrinos in the Sun. Neutrinos form because of the high-energy wave-particle duality. Fusion sends wave movement through standing waves. 

And in that interaction, form a neutrino. When neutrinos travel out from the star, they form quantum dots. During that journey, the neutrino binds energy on its shell. That makes lower energy points to the star. Energy starts to fall into those energy tunnels, and that means. If. This model is right, neutrinos play a big role in stars. It might deny the form of the standing waves that detonate a star. So. If we continue this reasoning chain. Mythical. Axions can explain why matter exists. The axion can make those quantum dots into the smallest parts of matter. When. An axion travels through a particle. It creates a lower energy point that pulls the particle into its form. 

https://scitechdaily.com/dark-matter-breakthrough-physicists-crack-big-bang-theory-puzzle/

https://scitechdaily.com/physicists-tighten-the-net-around-the-elusive-sterile-neutrino/

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

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

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

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

Types of neutrinos: 

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

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

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

The simplest explanation for ultra-high-energy particles might be the best one.

"When high-energy cosmic particles strike the top of Earth’s atmosphere, they produce showers of “daughter” particles that will find their way down to Earth. On the surface, we’ve built several notable detector arrays, including the Pierre Auger Observatory and the Large High Altitude Air Shower Observatory (LHAASO), to reconstruct the energy and direction of the initial cosmic ray that struck the Earth." (BigThink, The simplest explanation for ultra-high-energy cosmic rays)

The ultra-high-energy particles are mysterious. But sometimes the best explanation is the simplest. When a particle travels in the universe, it faces many energy fields and other particles. Whenever those particles travel through the higher-power energy field, they transfer energy to the particle that travels through them. This means the reason for the ultra-high energy photons and other particles is that. 

"Any cosmic particle that travels through the Universe, regardless of speed or energy, must contend with the existence of the particles left over from the Big Bang. While we normally focus on the normal matter that exists, made of protons, neutrons, and electrons, they are outnumbered more than a billion-to-one by the remnant photons and neutrinos/antineutrinos. When a charged particle travels through the intergalactic medium, regardless of how it’s produced, it cannot ignore the “bath” of photons it will experience along its journey." (BigThink, The simplest explanation for ultra-high-energy cosmic rays)

Those particles traveled through extremely high-power energy fields, such as those. Found in black hole jets. In the same way. Things. Like gravitational lenses transmit energy to those particles. In the same way. When particles. Like electrons impact a photon, they load energy into the photon. 

A photonic ray. It can accelerate electrons. But in the same way, when an electron impacts a photon, that electron transfers energy into that photon. The photon also reflects from the incoming electron, and that impact. Stretches a photon into gamma-rays. The gamma-ray systems can be the next-generation tool in inspection. 

"Particles traveling near light speed can interact with starlight and boost it to gamma-ray energies. This animation shows the process, known as inverse Compton scattering. When light ranging from microwave to ultraviolet wavelengths collides with a fast-moving particle, the interaction boosts it to gamma rays, the most energetic form of light. This type of interaction, between photons and energetic charged particles, will also serve to slow down (or brake) the charged particle’s motion." (BigThink, The simplest explanation for ultra-high-energy cosmic rays)

Today. Those gamma rays are produced by using radioactive material. The radioactive material. It is a dangerous tool. In the wrong hands. And the particle accelerators that use laser beams. That impact with electrons can be an answer. The gamma-ray systems can open the atomic structures. In new ways. For reseachers. 

These kinds of reactions and interactions affect in the same way. To a photon, and because an electron’s mass is much higher, that thing can turn a photon’s wavelength into gamma rays. When. Laser rays are shot against electron beams. Those things can be used to create synthetic gamma-rays. The high-energy reactions can open a new route to high-energy solutions. 

"Cosmic rays, which are ultra-high energy particles originating from all over the Universe, including particles emanating from the Sun, strike atomic nuclei everywhere they exist. On Earth, they land in the upper atmosphere and produce showers of new particles, but on the Moon, they recoil off of the heavy atomic nuclei present on the airless Moon’s surface." (BigThink, The simplest explanation for ultra-high-energy cosmic rays)

The photon is the only particle that doesn’t cause annihilation when it impacts antimatter. 

Particle collisions between photons can also explain dark energy. The fact is that all particles in the universe react to photons. The interactions between photons and electrons can accelerate electrons to incredible speeds. The laser systems that accelerate electrons in the particle accelerators can open new paths into physics. 

The laser beam can travel across the cathode beam and push electrons into the accelerator tube. Those accelerators can be far smaller, and their energy level can be higher than that of particle accelerators. Those are in use. The photon beam can be used to control things. Like. Antimatter particles. The photon beam can be used to create antimatter systems. Like. Antimatter rockets. The laser beam that drives antimatter particles to the rocket chamber uses particles that don’t interact with antimatter. 

A superkilonova, which has never been seen before, may be spotted.

"A puzzling cosmic blast detected in both light and gravitational waves may hint at a previously unseen type of explosion, challenging astronomers to rethink how neutron stars are born and collide. Credit: Shutterstock" (ScitechDaily, Astronomers May Have Spotted a Never-Before-Seen “Superkilonova” Hidden Inside a Supernova)

"When the largest stars exhaust their fuel, they end their lives in powerful supernova explosions. These blasts scatter heavy elements such as carbon and iron into space, helping enrich the universe. A different and far rarer kind of cosmic explosion, known as a kilonova, happens when two neutron stars collide. Neutron stars are the dense remnants of dead stars, and when they merge, they can create even heavier elements, including gold and uranium. Materials like these later become part of new stars, planets, and other cosmic structures." (ScitechDaily, Astronomers May Have Spotted a Never-Before-Seen “Superkilonova” Hidden Inside a Supernova)

A kilonova is a cosmic event where two neutron stars or a neutron star and a black hole will collide. The kilonova can also happen when more than two neutron stars collide. Superkilonovas are events where the energy level of kilonovas is much higher than in regular kilonovas. Those events are infrequent. Superkilonovas are a hypothesis that more than two neutron stars impacting is still a possibility. 

"This artist’s concepts shows a hypothesized event known as a superkilonova. A massive star explodes in a supernova (left), which generates elements like carbon and iron. In the aftermath, two neutron stars are born (middle), at least one of which is believed to be less massive than our Sun. The neutron stars spiral together, sending gravitational waves rippling through the cosmos, before merging in a dramatic kilonova (right). Kilonovae seed the universe with the heaviest elements, such as gold at platinum, which glow with red light. Credit: Caltech/K. Miller and R. Hurt (IPAC)" (ScitechDaily, Astronomers May Have Spotted a Never-Before-Seen “Superkilonova” Hidden Inside a Supernova)

But. Those events have not seen yet. But. In some other cases, the massive star can explode as a supernova. That star can form two neutron stars that merge immediately. Or in some other models, in a binary star. There, the neutron star and massive star orbit each other. Massive star explodes as a supernova. The neutron star pulls that nebula onto its shell. And another star also leaves a neutron star behind it. 

"This artist’s animation shows a hypothesized event known as a superkilonova. A massive star explodes in a supernova, collapsing into a stellar core that forms two neutron stars. The neutron stars spiral together and merge, sending gravitational waves rippling through the cosmos and seeding the universe with heavy elements, such as gold and platinum. Credit: Caltech/K. Miller and R. Hurt (IPAC)" (ScitechDaily, Astronomers May Have Spotted a Never-Before-Seen “Superkilonova” Hidden Inside a Supernova)

Those events cause a situation in which neutron stars collide in the materia nebula, and that raises the kilonova’s energy level. The idea is that when a neutron star merger happens in a high-energy supernova remnant. That thing can raise. Its energy level. Sometimes. In the supernova remnants, there are neutron stars or magnetars. That seems too light. That thing can happen if something crushes the star from the outside. 

Things like other supernova explosives, material jets from black holes, or neutron stars can trigger a supernova explosion. In cases, there. The outer layer in the escaping material. It turns too hot. This means. The outer material energy level. Turns higher than the center. That energy can force a nebula fall into the middle of the star. If. The energy level in a star’s outer shell turns higher than the temperature in its core. That thing causes an effect. The stellar shell packs material into its core. 

If a planet’s atmosphere. Gets a very high energy impulse. That can cause a situation where the ultra-hot atmosphere presses. That planet is in an extremely dense form. In the cases that. There are lots of hydrocarbons. The planet. It can turn into a miniature white dwarf. Or. Planet-weight diamond. If that kind of energy impulse hits a white dwarf, that thing can turn it into “too light” a neutron star. The massive energy burst can also. Press planets into black holes. 

https://scitechdaily.com/astronomers-may-have-spotted-a-never-before-seen-superkilonova-hidden-inside-a-supernova/

Einstein’s light cone and five-dimensional spacetime.

“Light cone in 2D space plus a time dimension, more commonly referred to as ‘space time’” (Wikipedia)

The light cone introduces the model. That time focuses information on the hypersurface of the present. But why can't we see into the past or future? Entropy is introduced as the reason for. Why can't we see the future? Or to the past. This means that entropy scatters information into such a small mosaic and twists it. That information exists. But. We cannot collect it into a form. That. We can use it. 

Term spacetime, or. Space time. Means the space and time. “In physics, spacetime, also called the space-time continuum, is a mathematical model that fuses the three dimensions of space and the one dimension of time into a single four-dimensional continuum. Spacetime diagrams are useful in visualizing and understanding relativistic effects, such as how different observers perceive where and when events occur.” (Wikipedia, spacetime)

There is a connection between time and space, and Einstein explained that connection by describing time as the fourth dimension. And maybe we should say that the time that travels forward or to the future is the fourth dimension. The arrow of time, as Eddington explains, states that when time moves forward, the arrow of time moves time backward. 

The arrow of time introduces black holes as a place where time appears to travel backward. That means that black holes can be seen as things. That pushes time forward. Time dilation causes that. When. The escape velocity turns higher. Than. The speed of light, time starts to travel backward. 

Above the gravitational pothole is the model of spacetime near the gravitational center. The black hole should turn the walls of the pothole. Through. Each other. That means its gravity field turns information around like a magnifying glass. 

Three versions of our point in relation to the light cone and the metasurface of the present. Each of those models is based on the model that there are five dimensions. Three of those dimensions are in space. And two are in time. 

1) If information focuses on the hypersurface of the present, it can act like an electromagnetic field. If information forms. Some kind. Of “electric arc”. We can be in a bubble. That denies us. From. Seeing the future or the past. That information focus that is behind or in front of us is so “bright” that we cannot see through it. 

2) Another model is that. We aren’t exactly on the information focus. If. We are in a place. Where. The information focus is behind. Or forward to us. That means we cannot see through that point. But the interesting model is that information should. Turn around. When. It travels through the metasurface of the present. 

3) The entropic model is that. Every single particle, or object in the universe. Are on. Its own metasurface of the present. Or, maybe we should say that the metasuface. The present is a complex entirety of structures. This means it's full of information focus points. And those focuses cause very high entropy.  

But. Then we can. Start. To. Think. About. Light cone. This model. Explains that the information focus is at the point of the hypersurface of the present. But are we on the hypersurface of the present? That is an interesting question. The idea is that information focus happens on that hypersurface. When time arrows touch each other, that event forms a structure. That is like when a magnifying glass focuses sunlight. Sometimes it is suggested that the material and the Big Bang formed when the light cone touched the hypersurface of the present. But why can't we see the future? The answer can be in entropy. And another thing is this: Materia is like a frozen electric arc. 

When we think about time dilation. And the hypersurface of the present. Time moves faster. At 30 cm above sea level. We can think. That. If the focus that forms when the light cone focuses information on the hypersurface of the present, the geometrical model of time in our universe is a ball. We are like in the middle of a giant electric arc, which could describe the geometrical model of time in the hypersurface of the present. There are actually three models of time, or how information focuses on the hypersurface. In those models, we are in the middle of a giant bubble, or we are not precise in the metasurface of the present. 

That means there is. Some kind. Of. Time focuses information behind. Or/and forward of us, if we think. That we travel in space from the past to the future. That focus. Denies us. To see the future. Another model is that the hypersurface of the present is not sharp. That means the universe is full of focuses that focus information from the future. And from the past. This is one of the attempts.  To introduce the nature of time or the geometry of time. 

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

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

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

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