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Photon rings around black holes can help to detect gravitational waves or even dark matter.

 






There is a photon ring around black holes. That photon ring is an example of the energy level and the force of the gravitation of black holes. That photon ring is one of the things that is predicted but the evidence of those photons that are orbiting black holes is not confirmed yet. That photon ring is one of the things that is making black holes invisible. 

The photon that orbits a black hole precisely at the point of the event horizon can act as a tensor between the world inside the singularity and outside it. So the photon that is orbiting a black hole just at the point of the event horizon can conduct energy away from the black hole. By using two-way quantum entanglement.

But the photon will not necessarily require quantum entanglement for conducting energy away from the black hole. The photon can stretch by massive gravitation if another side of the photon is inside and the other is an outside event horizon. That photon acts like an antenna, that conducts energy out from a black hole. 

When particles are falling through the event horizon there is a short moment where they are between two worlds. That means at that moment the point of the black hole forms a tensor. The particle or superstring will conduct energy or wave motion away from the black hole. 

Black holes are quantum systems. And energy is always flowing from higher energy level systems to lower energy levels systems. 

All black holes are rotating. And that rotation increases the energy of that particle or bite of superstring that acts as a tensor. That means there is forming a small black hole, precisely at the point of the event horizon. That black hole sends radiation like all other black holes. So that radiation pulls energy out from the larger black hole. 


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The tensor black hole that is just at the point of the event horizon makes a channel through the event horizon. 


Because the gravitation field around black holes pulls even light inside them. It is impossible to transmit information out from black holes.

Except, in this case, there is another black hole just at the point of the event horizon. That small black hole acts as a tensor or connector between the world inside and outside of the event horizon. That small black hole drives radiation away from the black hole and decreases its mass. 

That energy will increase the energy level of the photons that are orbiting the black hole turning their energy level hyper-high. There is the possibility that those photons can someday detect dark matter. If that photon impacts dark matter that should cause an anomaly in its energy level. And sensors can detect that thing. 


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If there is a quantum entanglement or black hole at the point of the event horizon. That quantum entanglement or black hole acts like an antenna that transfers energy out from the area inside the event horizon. So that thing could prove the existence of Hawking radiation. Or that the source of Hawking radiation is inside the event horizon. 

The energy level at bottom of the tensor or connector is higher than at the top of it. That makes it conducts energy out from the black hole. Because that energy comes inside the event horizon, that makes the black hole vaporizes sooner or later. 

Energy will conduct out from the black hole through the physical tensors, like particles that are falling through the event horizon. Or virtual tensor like quantum entanglement. Whenever wave motion comes out from a black hole inside the event horizon it loses its mass. 

And also gravitational waves that black holes are sending are decreasing their mass. So the photon rings can use to detect gravitational waves. 

So this photon ring conducts energy out from the black hole by superpositioning individual photons with photons that are inside the event horizon. There is the possibility that some photons are traveling just, precisely at the point of the event horizon. 

That means this photon is in two positions at the same time. And the event horizon splits that photon. Then the photon can create quantum entanglement with two other photons. The first photon is orbiting that black hole near its event horizon and the second photon would be inside that black hole. That quantum entanglement acts like an antenna that transfers energy out from the area inside the event horizon. So that thing could prove the existence of Hawking radiation that comes inside black hole. 


https://scitechdaily.com/the-photon-ring-astrophysicists-resolve-a-fundamental-signature-of-gravity-around-a-black-hole/

https://www.universetoday.com/151374/what-comes-after-photographing-a-black-holes-event-horizon-could-we-see-the-photon-ring/

Image: ) https://www.universetoday.com/151374/what-comes-after-photographing-a-black-holes-event-horizon-could-we-see-the-photon-ring/


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