"Researchers have found that energy instability within black holes may disrupt current models. This finding hints that black holes are more complex and unstable than expected. Credit: SciTechDaily.com" (ScitechDaily, Defying Einstein: Hidden Instabilities in Black Holes Could Rewrite Spacetime Theories)
In Einstein's model, gravity is one feature of spacetime. All objects form potholes in the spacetime. And that pothole is the thing that we know as gravity. The gravity pothole is always introduced as being smooth. But what if there are small waves in the walls of that pothole? How those waves can affect gravitational models.
Challenging Einstein and his Theory of Relativity is a tough thing. But it's possible. That there is a difference between Einstein's theories and reality. The reason for that difference could be this: Einstein handled black holes in their entirety. He thought a black hole was a single, solid entirety without internal structures. Another thing that gives the limits to Einstein's theories is this: Einstein didn't know about things like dark matter. And those things make it possible to adjust Einstein's theories.
Can dark matter that falls in the black hole explain dark energy?
Dark matter that the black hole pulls inside it can explain things like dark energy. If we think that the weakly interacting massive particle, WIMP is real and a black hole pulls those particles inside it. That thing means that in extremely dense and high energy conditions the WIMP can resonate with the Higgs field. The black hole pulls dark energy, dark matter, visible energy, and visible matter into it. The transition disk around the black hole is a very hot, high-energy place where the particle's speed is enormous. Then the WIMP impacts with Higgs field and sends the wave across the universe.
Maybe inside black holes are spiral-shaped structures. And if the black hole follows laws similar to that of planets or other ball-shaped structures. We can find a small zero gravity point in the middle of the black hole. That zero-gravity point could be smaller than gluons. But in extreme dense and pressure of radiation, even small things mean something. And that small thing can cause instability in the black hole. Black holes are extremely dense objects even if there is no singularity.
The radiation or energy and particles that a black hole pulls inside it will pack to the center of that monster. We all hear that black hole sometimes belch when it pulls lots of material inside it. Sometimes black hole eats so much material and energy that its environment will turn empty. Energy and material continue to travel inside the event horizon. And that means when a black hole pulls all material from around it. That causes anomalies in the black hole's internal structures.
Sometimes we hear stories about the black hole growth after material is lost from around it. The dark matter can explain that thing. The dark matter and visible material don't interact except through gravity. So dark matter can also form black holes and affect their growth. Theoretically dark matter and visible matter turn into entirety in the middle of a black hole. That situation was before the Big Bang. And it's possible that in singularity the dark- and visible materials are finally turned into entirety.
https://scitechdaily.com/defying-einstein-hidden-instabilities-in-black-holes-could-rewrite-spacetime-theories/
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