Cosmological crisis, and why some stars seem older than they should.

"Scientists have made a new calculation of the speed at which the universe is expanding, using the data taken by the powerful new James Webb Space Telescope on multiple galaxies. Above, Webb’s image of one such galaxy, known as NGC 1365. Credit: Science: NASA, ESA, CSA, Janice Lee (NOIRLab), Image Processing: Alyssa Pagan (STScI)" (ScitechDaily, Hubble Trouble Solved? Webb Telescope Finally Cracks the Universe’s Growth Mystery)

The cosmological crisis should be over. Researchers compared the latest data with distant objects, including black holes and red giants, against the cosmological standard model. Those new observations are in line with the standard model, and that thing solved the crisis. The crisis formed when the universe seemed to expand faster than it should. The question is this: can the universe be a little bit asymmetrical? 

The asymmetry can form for many reasons. One of the reasons why those cosmological asymmetries can form is that the supermassive black hole(es) that could formed just after the big bang can roll material into it. That forms the hole in the material.  And when material travels past that black hole there forms a large pothole in the quantum field. So, if the black hole forms in the young universe just after the big bang it turns into the supermassive black hole. 

So, if part of the material falls back into the black hole, that hypothetical case means that the black hole at the center of the universe gets a companion black hole. The idea is that after the Big Bang which was a series of events. 

Where the material reached the form as we know it. If in a young super energy level universe forms a "Kugelblitz" black hole that black hole will turn supermassive. The denser energy state means that the black hole is very small in a high-temperature universe. But the black hole is an interaction. And when outcoming pressure turns lower that means the black hole can expand its event horizon. 

The idea is that the singularity sends a very high energy, short-wave radiation. That radiation forms a false vacuum around the singularity. The false vacuum forms when a fully symmetrical particle called singularity vaporizes. When that singularity vaporizes it acts similar way as an ice bite that melts in the room. 

There is an interesting theory that the black hole is a false vacuum or vacuum. In the last case, the cosmic void just collapses. If there is some kind of material cloud in the middle of that thing.  Then there forms a formation in the middle of the vacuum that acts like a thermal pump. Actually, the bubble that the energy field cannot press together can also act as a black hole. The idea is that the structure that moves energy or quantum field in two directions can act as a black hole. 

The false vacuums can interact similar way as black holes. The idea is that the false vacuums can surround all gravitational holes or gravitational centers. The question is: what happens if material and energy travel past the gravitational center at a very high speed? There is the possibility that the very fast-moving material and energy flow around the gravity center just pulls that object with it. That means the high-power energy forms a vacuum around the object. 

And that object can vaporize leaving the bubble behind it. If the extremely fast-spinning quantum field around that bubble can keep its form. That can mean that the black hole can be the bubble in the fast-spinning quantum field. 

There is the possibility that sometimes the false vacuum interacts with its environment like a black hole. There is the possibility that a false vacuum accelerates energy flow that jumps over the vacuum. That causes a situation. Where that energy acts like a thermal pump. That pulls energy out from a vacuum. 

That turns deeper and deeper. The idea is that there are also other types of things than just singularities that can form an effect that looks like black holes. And maybe all black holes are not similar. There might be many different types of black holes. 

"Artistic impression of a neutron star that is ‘evaporating’ slowly via Hawking-like radiation. Credit: Daniëlle Futselaar/artsource.nl" (ScitechDaily, Space Everything Evaporates: From Neutron Stars to You, the Universe Is on a Clock)

All material will evaporate. That means material turns into wave movement because the quantum field, or Higgs field turns weaker. And it cannot resist energy flow out from particles. Or it cannot press particles into their form. 

If a star goes into a cosmic bubble or cosmic void that can cause that energy to flow out from the star faster than it should. That can cause opposite time dilation where time moves faster than it should. 

Time dilation is a two-way effect. The time slows in the object when its energy level turns higher. But if the object gets into the cosmic void that causes energy to flow out from that object faster. The cosmic void that forms around the object can turn time travel faster than usual. Time dilation means that when energy flows from the object determines how fast the time moves or travels. 

Another name for the time is the speed of the particle vaporization. When a particle delivers energy it turns older, and when a particle receives energy it turns older. It's possible that very high-energy stars can blow the bubble around them. Or they can travel in the cosmic void, which can cause the opposite time dilation which means the star seems to be older than it should be. 

But the other thing that may look interesting is stars that seem to be older than the universe. There can be situations in which the blue supergiants or hydrogen stars can go near black holes. The black hole can pull material out from the hydrogen star. And then. Another thing is that the black hole can cause time dilation. 

The time dilation can explain why some stars seem to be older than they are. Another thing is that the black holes or their transition disks send energy flow that heats stars around them. When sometimes that energy flow turns weaker that can cause a situation. That causes situations where particles can deliver a little bit too much energy, and their energy level turns lower than it should be. 

In a high energy stars the hydrogen atoms or subatomic particles can also spin very fast. That spin can cause time dilation. In that case, the time should look slowing. But then the high-energy star can blow energy and material away from its environment. That means the energy flows out from the star. And that can form electromagnetic low pressure around the star. That means energy flows away from the star faster than it should. And then that thing makes time move faster than it should. This kind of cosmic void around the stars can explain, why some of them look older than the the universe. 

https://scitechdaily.com/everything-evaporates-from-neutron-stars-to-you-the-universe-is-on-a-clock/

https://scitechdaily.com/hubble-trouble-solved-webb-telescope-finally-cracks-the-universes-growth-mystery/

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