Black holes are mysterious objects. And one interesting thing orbits every single black hole in the Universe.

  

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 Black holes are mysterious objects. And one interesting thing orbits every single black hole in the Universe. 

That thing is the photon ring. The photon ring is the photons that are orbiting the event horizon. Those photons might be the reason why we cannot see a black hole. There is a theory that some information falls into a black hole by following the half-elliptic trajectory. That means the nucleus of the black hole would act as the gravitational sling and makes it possible that some of those superstrings can escape inside the black hole. 

That photon ring has the ability that it will encrypt the information that is escaping from the black hole. When superstrings or flat photons that could be visible are traveling across that photon ring those photons are cutting it into pieces. Or it turns the information into a form that we cannot observe it. 

That thing gave interesting ideas for things like quantum computers and protective fields. If the photon whirl protects the quantum computer or its quantum entanglements. That photon whirl protects those quantum systems from the outcoming energy fields. The fact is that the energy itself will not break the quantum entanglement. The change in the energy level is the thing that destroys things. 

Or sharply saying decreasing the energy level causes the particle sends light quantum. That light quantum, energy burst, or wave motion is the thing that destroys molecular and other bonds. 

The protective field can protect the layer against incoming material objects. Or even laser rays. A photon whirl can act like a laser ray that whirls around the object. 

The photonic whirl has caused an idea of the protective field. In this case, there are two-layer quantum fields. That is made by expanding two different elementary particles or their quantum fields. That thing will happen by stressing those particles with energy. 

The photons are trapped between those two internal quantum fields and they are starting to whirl in that bubble. When something hits that photon whirl. It erases that incoming thing immediately. That thing would be the real-life protective field. When those photons are impacting things they would erase that immediately. 

There are plans that by using an extremely high power electric field there is the possibility to capture photons between electrons around the layer. The electricity travels at the core of the wire. And it rises electrons to the upper energy level.

So there is a possibility. That the electrons are acting like a photonic trap. And if those photons are whirling around the layer they would encrypt the information that humans cannot see in that layer. So that thing could be the key to the ultimate stealth and protective systems. 

https://www.quantamagazine.org/black-holes-ring-of-light-could-encrypt-its-inner-secrets-20220908/

https://miraclesofthequantumworld.blogspot.com/

Einstein's General Relativity passes another test again.

Einstein's Theory of General relativity is the tool that ever failed. That theory passed another test with dark matter, and this means the mathematical skills of Albert Einstein we marvelous. There are no errors that quantum computers and the most powerful telescopes can find from those theories. 

There are a couple of errors that people are made when they are checking that theory. The first thing is that they forget that also object that encounters gravitational center in the gravitational pothole. So the curvature of the space happens around both objects. The second thing is people forget that there is no straight space. The universe is full of gravitational potholes. 

Or well, people are not always thinking that the gravitational pothole is the effect where the universe turns shorter. The gravitation pulls quantum fields to the gravitational center. That means that when a particle or object closes the gravitational center it passes those quantum fields more often than if it's far away from that object. 

That means the form of the event horizon is the "solid quantum fields" or "solid gravitational waves". The reason why particles can pass the event horizon is that the bottom of that gravitational structure falls into the black hole. But if the particle travels in straight space those quantum fields are forming the barrier that pulls energy away from the particle. 

Speed is an interaction where energy travels between an object and its environment. If energy travels into a particle its speed increases. But when energy starts to fly out of the object that thing causes its speed decreases. 

There is one way to make an object move faster than it should and that is to accelerate it to a speed that is as close as to the speed of light possible. Then against that particle will shoot the laser ray that increases its energy level. And rises its energy level so high that it loses its interaction with the particles that are at the same energy level as us. 

https://bigthink.com/hard-science/einstein-general-relativity-passes-another-test/

https://artificialintelligenceandindividuals.blogspot.com/

The JWST telescope published a new image of Neptune.

The JWST's NIRCam (Near-Infrared Camera) sensor has taken these stunning images. The image is taken using near-infrared frequency. The details of this image formed when Neptune's atmosphere is orbiting the planet at a very high speed. The friction on that giant planet is very low because the temperature is also low. But it exists. 

There is also the possibility that the giant sea of Neptune will impact a small bite of some kind of ice. That thing causes the whirl in the atmosphere. And maybe the giant Blue Spot in Neptune's atmosphere is the result of this kind of thing. 

Because that planet's surface is mainly liquid gas that thing causes the atmosphere is orbiting the entire planet almost without friction. So the windspeed on that planet can rise very high. The upper atmosphere orbits the planet at a higher speed than the lower atmosphere. And that thing causes friction that is visible in the infrared frequency. 

https://scitechdaily.com/incredible-new-webb-telescope-image-of-neptune-captures-never-seen-ring-details/

Can the charm or c quark explain why a photon has no mass?

Can the mass of charm quark or c quark open the road to the photonic mystery? Can the reason why the c-quark that is inside the proton can be heavier than the proton? The c quark is a very heavy particle. That means its energy level is very high. 

That causes that c boson sends radiation with very high power. That radiation or wave motion pushes other particles away from it. And c quark flows above the energy level of other particles. When c quark sends enough radiation its shape turns into another particle.  

So could the same thing cause that photon has no mass? In that model, the photon would be in so a high energy level that it also pushes other particles and wave motion away from it. If that thing is right. The radiation of photons is so high that it will send the impacting radiation away from it.  In that case, dominating radiation will blow other radiation away. And that makes it difficult to measure the mass of the object. 

Otherwise, photons can turn wave motion without warning. Sir Isaac Newton proved that light is at the same time wave motion and particle. In that model, the scattering effect will cause that when the light in wave motion or superstring form hits another superstring it can turn into a photon. 

And the same way when a photon hits another photon or superstring. It can turn back to wave motion. That thing is an interaction where energy travels between superstrings and particles depending on which side of the impact has a higher energy level. 

If the wave motion hits the wall with a certain energy level there is the possibility that the wave motion will transfer energy to material with extremely high power. But the impact area of that wave motion or superstring is so small that it cannot interact. Or it's hard to measure the interaction. 

The reason for that is when the superstring travels through the quantum field. That raises the energy level of that field but during that interaction, the superstring itself doesn't make changes to that energy level. So the energy travels out from the quantum field after the energy stress. Not during that stress. The energy flows away from the particle when there is no incoming energy. At that moment energy comes out from the field because the system attempts to reach the minimum energy level.