Friday, August 1, 2025

Time arrows and black holes.





Antigravity and Meissner effect. 

Normally, the Meissner effect is an electromagnetic phenomenon in superconducting materials. The Meissner effect happens in electromagnetic wavelengths. The gravitational Meissner effect is a similar effect that happens in the gravitational wavelength. Today, the gravitational Meissner effect is still a theory. 

Can gravity be like the Meissner effect? The Meissner effect is possible only in the extremely low temperature superconducting objects where an atom’s quantum fields form an entirety. The question is whether a similar effect that forms in gravity fields forms in cases where all parts of the atom are under one homogenous quantum field? Or is it enough that the electrons will push against the atom’s core into a homogenous form? 

If the “Gravitational Meissner effect” is possible, that makes antigravity levitation possible. If the gravitational Meissner effect is possible, that means the energy waves that travel past the particle or object are like time arrows, or arrows of time. Those things harness energy from their environment and push it into particles or particle groups. And that energy pushes those particles back in time. 

Or, otherwise saying, they cause time dilation. When the mass of an object increases, that means its spin turns faster. The spin speed accelerates until the particle cannot receive energy. Then the particle's speed starts to slow. In that process, it sends energy waves. Because it must transfer that kinetic energy somewhere. Black holes send gravitational waves when they slow their speed and release energy that is stored in them. 

The arrow of time (or time arrow) in the modern universe. 


Why doesn't the time arrow (arrow of time) work in the modern universe? There is one very good explanation. There is too much space in the modern universe. When a time arrow moves forward, it pushes energy to objects like particles around it. And then that energy pushes particles back in time. But the problem is that this requires that the particle can store the energy that it gets. In the modern universe, a receiving particle takes that energy into its quantum field. And then releases that energy immediately. 

The time arrow that pushes an object back in time requires a situation where a particle that receives energy will not give that energy away immediately. So the system must be dense enough and harness energy from a large enough area that the time arrow (or arrow of time) can push particles back in time. 

When we think about things like wormholes, those hypothetical energy tornadoes are one version of the time arrows. The wave movement tornado around the wormhole stores energy from around it. Then that energy will move to an object that travels in the wormhole. That energy can prevent an object from aging because that thing will not let the energy out from that particle or object. The case where the wormhole transports objects back in time is this. 




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). Can this kind of effect be possible in the gravitational fields? In this image, Tc= temperature critical or critical temperature. The critical temperature means that below the critical temperature. The Meissner effect turns into reality. Could there also be a density critical that makes the gravity field act like EM-fields act in the Meissner effect? 

The energy level in those objects that travel in a wormhole must rise higher than the energy shadow at the front of the particle can transport that thing out from the object. The black hole is one type of time arrow. The black hole is a very fast-spinning object that collects quantum fields from around it and transforms that thing into kinetic energy. That means the black hole’s spin accelerates all the time. But that acceleration stops sooner or later. When the spinning speed of a black hole slows, it sends gravitational radiation or gravitational waves. 


When a black hole or any other particle spins in the energy field, it collects energy from that field. That thing makes an energy pothole. The pothole is the wormhole back in time. The particle can harness energy only from its environment. The thing in black hole cases is that the black hole is not eternal. It makes a hole through time. But the reason why the time arrow works in that case is that the energy field in that pothole is dense enough. The energy cannot escape from the black hole as easily as it could escape from some other objects. The black hole’s energy level can rise so high that it breaks the energy barrier around it. And that causes black hole destruction. The black hole travels back in time until it starts to deliver its energy. 

But why can gravity slow aging? The answer can be in the nature of gravity. If we think that gravity is one form of the Meissner effect, the particle that spins just makes energy fields travel past the particle. That makes quantum levitation. In the case of black holes, particles are in the same direction. And that makes the effect more powerful. The fast spin packs energy, or quantum fields, from such large areas that the object cannot release its energy through that thing. The dense material causes quantum fields to travel through the extremely dense object. Those energy fields or waves are like time arrows. They push objects in the middle of them back in time because they cannot let quantum fields travel through them. 

That means if we want to make a time machine that uses a time arrow, we should make extremely dense pearls. Then we must shoot particles or laser beams through it. That pumps energy to the structure around the channel. But for working that requires extremely dense materials. 

https://www.ecoticias.com/en/humanity-breaks-time-for-the-first-time/18338/

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

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

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