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Primordial black holes can lurk in asteroids or planets.





There are theories that the universe is full of small black holes. Those primordial black holes, PBH's can be smaller than quarks. One of those theories is that at least some of the weakly interacting massive particles, WIMPs are those primordial black holes. 

Observations from distant galaxies tell that there is no dark matter in all galaxies. This thing means that dark matter forms similar structures with visible material. There is also the possibility that there is some other interaction between dark matter and visible matter than just gravity. 

That supports the theory that WIMPs are small primordial black holes. Those black holes will be smaller than atoms. But they have similar relativistic jets with regular black holes. That means those relativistic jets are twisted energy fields. They would be screw-like structures in  Higgs field. 

Wobbling movements and extraordinary solar activity can be the sign of dark matter. Some researchers think that dark matter is hiding in very small primordial black holes. Those black holes can be smaller than atoms. But their weight is similar to asteroids or dwarf planets. Planet 9 is also introduced as being a primordial black hole. The small primordial black holes are like invisible Plutos. 

Primordial black holes can lurk inside asteroids, plants, or even on Earth. In some theories, there is a small, low-mass primordial black hole in the center of every star and planet.  And the thing is that those small black holes, if they exist allow us to see dark matter as the wobbles in the small planet's atmosphere. 





The miniature black holes can lurk in stars, asteroids, planets, and even on Earth. There is a model about so-called theoretical quasi stars, or black hole stars, the black hole will make the plasma bubble around it. If plasma starts to orbit a black hole at a certain right distance, the black hole can get the shell. And the relativistic jet pumps energy to the plasma shell. 

So there is another version of that model. In that model, the miniature black hole can get into the cosmic molecular nebula. That black hole can pull the dust from that nebula over symmetrically. And that can cause a situation, where the cosmic dust will lock into the right instance. The primordial black hole can have a shell that looks like a planet or dwarf planet. The fact is that all black holes have orbital trajectories. 

If the distance of the dust cloud is right, that thing can make it possible for the dust to start to orbit the black hole-like shell. The energy release of those primordial black holes could be very powerful. And if that kind of small black hole enters the Sun's atmosphere it can form a very high-power flare. The question is, how low a mass black hole can exist? That thing requires that the outcoming energy can keep the black hole in its shape. 

A very small black hole can be in the energy bubble, which is at a higher energy level than the black hole. In that case, the small black holes cannot push that energy wave away. The standing wave will be locked around those very small black holes. 

The primordial black holes can explain strange interactions of dark matter. It's possible. That dark matter can have another way to interact than gravity. But maybe another interaction is too weak that we can see it. There are suspicions about that other interaction, but still today dark matter is quite a big mystery. 


https://bigthink.com/hard-science/mars-wobble-dark-matter/


https://home.cern/science/physics/dark-matter


https://phys.org/news/2024-09-dark-slight-interaction-regular.html


https://phys.org/news/2024-10-primordial-holes-planets-asteroids-earth.html


https://scitechdaily.com/when-the-sun-misbehaves-the-mysterious-solar-flare-delays-challenging-scientists/


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

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