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It's possible that primordial black holes can lurk even on Earth.

"An illustration of small primordial black holes. In reality, such tiny black holes would have a difficult time forming the accretion disks that make them visible here. Photo: NASA" (Buffalo.edu, Evidence of primordial black holes may be hiding in planets, or even everyday objects here on Earth)


In theories the primordial black holes formed before material. Some of them are very small masses, lighter than Earth.  And those black holes can hide almost everywhere. 

The new evidence about the theoretical primordial black holes. Is the path to fundamental science and technology. The primordial black holes were born in the young universe. In theoretical models. Small whirls in the young and hot universe formed those primordial black holes. 

That means those things are closest to a theoretical phenomenon called "Kugelblitz black hole" where radiation turns around photons and turns them into black holes. In the modern universe, Kugelblitz black holes are probably impossible. Because the energy flow out from those structures would be so fast. 

And the turbulence is so powerful, that it destroys those structures before their energy level turns so high. That the black hole can form. But in the young universe, the outside energy level was so high, that it could resist and pack the energy that comes out from the primordial black hole. 


"NASA's Curiosity rover will soon explore a patch of spiderweb-like "boxwork" features on Mars. This photo, taken in 2006, shows a similar area to the one that the rover will explore. (Image credit: NASA/JPL-Caltech/University of Arizona)" (LiveSciece, Gigantic 'spiderwebs' on Mars are the next big target for NASA's Curiosity rover, agency reveals)


The idea is that those small black holes are locked because of their acceleration disk and plasma layer that keeps energy inside that small black hole. In the same way in normal black holes the plasma shell presses against the event horizon. Without that counter pressure, the black hole will vaporize. 

In some theories, the primordial black holes can hide almost everywhere. That means that it's possible that somewhere is the hollow planet or some cave or tunnel where those cosmic seniors could hide. The impact of a so-called primordial black hole would be a very high energy effect. 

This could explain the so-called spiderweb stones on Mars. And that could also explain the mystery tunnels below the Moon surfaces. It's possible that if the huge spiderwebs formed in electromagnetic phenomenon like lightning. One explanation for those mega-lightnings is the impact of one or more primordial black holes. 


"Formation of the universe without (above) and with (below) primordial black holes." (Wikipedia, Primordial black hole)

The primordial black hole can make the "invisible" planet possible. One offered explanation for hypothetical Planet X is the planet there is a primordial black hole in the hollow planet. And that thing makes that planet invisible. Calculations tell that Planet X must have a mass of about 10 Earths. 

Planet X is the mysterious gravitational effect and if the source of the effect is small and dense we might not see that thing. If the primordial black hole forms some small planet-looking object around it that structure might deny to see the radiation that the black hole sends. The black hole pulls material through the ice and stone. Because it's smaller than grapefruit the stone shell blocks that radiation. And maybe that object is smaller than the Moon or Ceres, the largest known asteroid in the asteroid belt. 

The mass of those black holes is about the Earth or even lower. The idea is that there formed a hole in the young universe's plasma and energy fields. That hole pulled the energy string through it. And then the outside energy fell against that string. If that energy couldn't get out it could form a small black hole. 

The black hole can pull material against it, and if the dust and gas fall symmetrically into that black hole they may lock around it. If that happens at the right distance those particles form a ball there they orbit the black hole. And that forms a so-called hollow planet. 


"An international research team discovered a lava tube on the Moon, indicating a potential habitat safe from harsh lunar conditions. The study, which reanalyzed NASA LRO mission data, offers significant insights for future lunar exploration. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, NASA’s Lunar Orbiter Reveals Hidden Tunnels on the Moon)


Can some Wolf-Rayet stars be so-called quasi-stars that form around the low-mass primordial black hole? 


In some models, the supernova explosion or other black hole relativistic jet can cause the situation that the planet's shell turns so hot that energy travels into the planet's core. There that energy can form a black hole. Sometimes similar effects can explain the blue supergiant stars. The star's shell turns very hot for some reason. Energy falls into its shell forming a black hole. 

Then the black hole pulls material from around it into it. But shells of those stars happen the fusion reaction that pushes part of the star away from the black hole. And then the shell of the star starts to orbit the black hole as a quasi-star. If the Earth-mass black hole forms a quasi-star that star could be like some blue supergiant or Wolf-Rayet stars. 

Theoretically is possible to transform any object in the universe into a black hole. The system would cover the structure with a hollow- ball-shaped antimatter chamber. Then the system explodes antimatter-material annihilation in the ball-shaped chamber's shell. That creates an energy impulse that presses an object in it into a black hole. 



Artist's concept of a hypothetical Planet 9 orbiting far from the Sun


The orbital trajectory of hypothetical Planet X. (BBC)


The thing is that the small black holes can make it possible to make many new things like stable superposition and entanglement. If the quantum superposition and entanglement are made between two black holes or black holes and neutron stars that thing is the breakthrough for quantum computers. But the problem is where we can find those neutron stars and black holes? 

The antimatter system can be the answer to those things. The ball-shaped antimatter system can create energy impulses that press plasma in the ball-shaped chamber into the same material that forms neutron stars. Or the antimatter explosion can press that plasma to form what we call a black hole. 


And if we would find primordial black holes from somewhere? 


Primordial black holes can be the answer to the Earth's energy problems. And things like quantum computing and interstellar travel. The primordial black hole can be used to make a stable quantum superposition. But the primordial black hole can be the energy source for the entire Earth. If that kind of small black hole is found, it's possible to build a ball-shaped chamber around that thing. 

Then that ball can collect energy from the gas and particles that fall to the black hole. The ball must have hatches that allow particles and gas can come into contact with that primordial black hole. The small black hole can also give energy to interstellar spacecraft. 


https://arstechnica.com/science/2020/08/planet-x-why-not-a-tiny-black-hole-instead/


https://www.bbc.co.uk/newsround/49910160


https://www.buffalo.edu/news/releases/2024/12/primordial-black-holes-may-be-hiding-in-planets-or-even-everyday-objects-here-on-Earth.html


https://interestingengineering.com/science/everything-you-need-to-know-about-planet-x-the-mysterious-9th-planet


https://www.livescience.com/space/mars/gigantic-spiderwebs-on-mars-are-the-next-big-target-for-nasas-curiosity-rover-agency-reveals


https://scitechdaily.com/nasas-lunar-orbiter-reveals-hidden-tunnels-on-the-moon/


https://science.nasa.gov/solar-system/planet-x


https://en.wikipedia.org/wiki/Kugelblitz_(astrophysics)


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


https://en.wikipedia.org/wiki/Quasi-star


https://en.wikipedia.org/wiki/Wolf–Rayet_star


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