Do the remains of black holes prove the existence of other universes?

23. 08. 2018
6th international conference of exopolitics, history and spirituality

"There are more universes, not just ours", says a group of physicists. Just like ours and other universes are full of black holes, and we can reveal the traces of these blackened black holes in the cosmic microwave background (CMB) - the relic radiation that is the remnant of the big bang, the moment of our universe.

It is at least a somewhat eccentric view of a group of theorists, including prominent mathematician and physicist Roger Penrose of Oxford University (who was also an important collaborator of Stephen Hawking). Penrose and his colleagues argue with the modified version of the Big Bang.

Space and Time Theory

Penrose and other like-minded physicists the theory of space and time, which they call conformational cyclical cosmology (CCC) when the "bubbles" of the universe expand and collapse gradually. Black holes leave traces in the universes that follow the previous ones. In his new article, which was published by 6. August in the "arXiv" magazine, Penrose, along with mathematician Daniel Anne and theoretical physicist Krzysztof Meissner, claim that these traces are visible in the current tracks of relic cosmic rays. They explained how these traces are created and survive from one universe to another.

Penrose says:

"If the universe continues to expand and the black holes will absorb everything, then there will only be black holes at some point."

Hawking theory

Hawking's most famous theory says:

“Black holes slowly lose part of their mass and energy over time by emitting intangible particles, called gravitons and photons. If this radiation exists, then these black holes gradually diminish. At some point these black holes would completely 'evaporate', and the universe would become an intangible mixture of photons and gravitons. ”

Gravitons and photons are immaterial objects moving in space, they do not exist in time and space like all other material objects. Einstein's theory of relativity says that material objects move in time slower than the speed of light, but when they move at a velocity close to the speed of light, they are shortened from their point of view. Intangible objects, such as photons and gravitons, travel at the speed of light, so there is no time or space for them at all. Therefore, the universe filled with gravitons or photons will have no meaning in terms of time or space.

At this point, some physicists (including Penrose) say that this 'empty' universe after the black holes is beginning to resemble superhust space at the moment of a big bang where there is no time or space, and then everything starts again.

Traces and relic radiation

So if the new universe does not contain any black holes from the previous universe, how could these black holes leave traces in relic radiation?

Penrose states:

"These are not the black holes themselves. It is rather the billions of years that these objects transmitted energy into their universe through Hawking radiation. It is not a black hole, like a real material object. it's all Hawking's black hole in her history. "

What it means: Throughout its existence, the black hole dissolves through Hawking radiation, and this trace, created against the backdrop of the relic radiation of the universe, can survive the extinction of the universe. If scientists could find this trace, they should have reason to believe that the cyclic cosmology of the universe is correct. Although there are objections to weak, fluctuating relic radiation. These objections only recall the possible statistical deviation of measurements between different areas of the universe.

Circular areas are located where there are galaxies, and starlight does not exaggerate relic radiation. He further highlighted areas where microwave distribution matches the expected occurrence of Hawking holes. These areas should compete with each other to find out which area is closest to the expected Hawking points.

Data Comparison - Points from Past Universes?

Then we compare these data with hypothetical data of randomly generated relic radiation. This trick is to prevent these experimental Hawking points from creating if the relic radiation is entirely random. If randomly generated relic radiation data could not mimic these Hawking points, it might indicate that the newly identified Hawking points really come from the black holes of the past universes.

This is not the first time Penrose has released a report announcing that he has identified Hawking holes from the previous universe. Already in 2010, he published an article with physicist Vahe Gurzadyan, who made a similar finding. However, this publication provoked criticism from other physicists because it did not convince the entire scientific community. The following subsequent documents claim that the evidence of Hawking points from Penrose and Gurzadyan was in fact only the result of random noise in their data.

Still, Penrose advanced forward. Physicist also sensationally argued by convincing many neurologists that human consciousness is the result of quantum processes. Asked if the black holes in our universe could one day leave traces in the universe following, Penrose replied:Yes, it is possible!"

Note editor: This is one of many theories, time will show whether this theory can also be supported by provable evidence.

Similar articles