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Black holes and their energy can tell about the T-symmetry and Higgs bosons.


"Researchers have introduced a method for detecting light echoes around black holes that could transform our understanding of their characteristics and impact on the universe. Credit: SciTechDaily.com" (ScitechDaily, Black Holes Are Sending Signals – Astrophysicists’ Groundbreaking Method for Decoding Them)


The black holes send energy. Researchers are interested in the light echoes from the photons and particles, that orbit the black hole near its event horizon. It's possible. Those echoes can uncover the secrets of the black hole's mysterious Hawking radiation. The thing that black holes lose their mass requires that they send their mass somewhere. 

The mass cannot vanish. It must change its form into energy. Or it must jump to the other dimension. In that model, if the energy level of the material turns "too high" that thing causes a situation in the bridge between the material and 3D spacetime. The high-energy particles lose their ability to exchange information. Between them and other particles. In some other visions, the mythic Higgs radiation escapes from the point of the back hole's spin axle. 

The black hole is the only known object in the universe where is the minimum entropy. Maybe in the black hole is the singularity the place where dark matter, dark energy, and the visible material and visible energy are in contact. 

Theoretical physicists say that Higgs's particle gives mass to the material. But the problem is that they don't know if the Higgs boson and Higgs's gravitational- or mass particle are the same thing. Some researchers think that the highest energy particle known as the Higgs boson is still too low energy thing that it could be the Higgs mass particle. The Higgs mass -particle can be the graviton the transportation particle of the graviton, the mysterious graviton. 

The mystery is the Higgs boson's or Higgs's particles' role in gravity. The Higgs particle could be the Higgs's boson is the thing that can give material its mass. In some models, the Higgs's particle is very high energy, but a very small particle. The idea is that this particle is in every single particle with mass. The vaporization of the Higgs particle means that the particle sends energy waves very fast. The particle also spins fast and that means it can send most of its energy in the form of string from its poles or spin axle. 


That thing causes asymmetry in the quantum field around that particle. When a fast-spinning particle sends most of its energy from the poles or spin-axle, that causes the quantum field around it to travel to the poles, and the polar- or spin-axle the size of it decreases at the particle's equator. That causes things outside the quantum field to travel to fill that space. That interaction keeps the whisk-looking structure that forms elementary particles as its form. 

Time-reversal symmetry or T-symmetry means that the reactions are similar regardless of whether time travels forward or backward. Another thing is that the growing entropy in the system makes it impossible to send complicated systems back in time. The microscopic objects don't have entropy. But the problem is that. Those microscopic objects form complex systems. 

The T-symmetry means that it's very hard to detect whether time travels forward or backward in the small systems. We can see all reactions similar way. The expansion of the universe causes the quantum field that locks wave movement and particles in the system to turn weaker. That makes space in the system. And that space is the thing that causes entropy. That entropy makes it impossible or very hard to send information back in time. 

Confirming that thing requires the tunnel that length is from the Earth to Jupiter. 

That is impossible on Earth. The idea is that the information will be sent through the system, and if it's at goal before it leaves that is the thing that proves time travel. But if the size of the system is only a couple of atoms. That means that time reservation is very hard or impossible to detect. T-symmetry is the thing that can make time travel possible. That requires that. The system must control its internal entropy. So if we want to control the system, we must know every part of it. 

https://scitechdaily.com/black-holes-are-sending-signals-astrophysicists-groundbreaking-method-for-decoding-them/


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


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


https://en.wikipedia.org/wiki/T-symmetry


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