“An expanding mini-universe could counterbalance the collapsing matter of a star, thereby creating a stable gravastar. Credit: Daniel Jampolski and Luciano Rezzolla, Goethe University Frankfurt” (ScitechDaily, Scientists Say a New Universe Could Form Inside a Dying Star)
“A new study suggests that the collapse of a massive star could spark the creation of a tiny expanding universe rather than a black hole. The resulting object, called a gravastar, would avoid the singularity and event horizon that make black holes so puzzling.” (ScitechDaily, Scientists Say a New Universe Could Form Inside a Dying Star)
The hole in the Higgs field. It denies the gravitational interaction between the center. And its environment. The gravastar forms when an exploding star. It will form the shell. All the mass of the star is in that shell. And that makes. The symmetrical gravitational pull inside that star. This thing can even rip a hole in the Higgs field.
And that means. It's possible that there is no Higgs field at some point. Even a small mass around that bubble can keep that structure stable. The idea is that the entire mass of the structure is around that bubble.
This means that the black holes can be multiple independent phenomena. The idea of gravastars is this: When a star. It is far more massive than. The Betelgeuse or red supergiant. It falls as a supergiant. When its energy production ends. But that causes a situation in the falling star’s fusion restarts again. The star packs material into its core. And that causes such a strong energy burst that the matter will be erased. The powerful radiation rips the star into pieces. And if that matter spreads too far. That denies the possibility. That gravity. It cannot pull that nebula back together.
A black hole forms after the supernova explosion when gravity pulls matter back together. But if the radiation that the explosion forms is too powerful. That thing can rip a hole into the Higgs field. The Higgs field is the base energy field in the universe. That field carries gravitational waves. Or, gravity waves are a wave movement in that field. And without that field, there is no gravity. If there is no Higgs field. There. The gravitational center cannot touch. That thing denies gravitational interaction between the center and the environment.
“A diagram comparing the structure of a classical black hole with a gravastar.” (Wikipedia, A diagram comparing the structure of a classical black hole with a gravastar.)
Can there be other universes inside our universe?
A gravitational wave is like a ditch that travels through the universe. The energy hill between those ditches always turns lower. The reason for that is the expansion of the universe. When. The energy ditch. Or a lower energy point in the Higgs field impact object. The energy hill behind that energy ditch pushes objects into that energy ditch. The most reasonable reason. For why does gravity act only in one direction?
It is in the universe’s expansion. When the universe expands. That turns the Higgs field weaker. This means that the energy hills between gravity waves are always lower. And because of the energy hill behind the object. What we look at from the gravity center is always higher. Than. The next one. That means that energy hills behind objects push particles into the gravitational center. This means that later energy hills. Between those energy ditches. always turn out to be lower. And that raises a question. Could there be two kinds of gravitational effects? The long-distance wave effect.
And the short-distance effect. There. A fast-spinning object. Roll quantum fields around them. And then there is a question: can there be gravitational vacuums in the universe? The idea is that the Higgs field is that. The Higgs field delivers gravitational waves. Or, gravitation is a phenomenon that uses the Higgs field as a transporter. So if there is a hole in the Higgs field. Or base-energy field in the universe. There is no gravity at that point. Because of that. The gravitational wave motion. It cannot reach objects inside those bubbles.
When an ultra-heavy star dies, it can form a structure that is weirder than a black hole. The object is called a gravastar. Or, a gravitational vacuum star. The idea is that. When the supernova explosion is strong enough. That thing can form a situation. There. In the gravitational field. Or, in the Higgs field, forms a bubble. If there is no Higgs field. There is no gravity. And that means there forms a gravitational vacuum. There is no gravitation at all.
The gravastar is hard to detect. Or it doesn’t differ much in black holes. So, the gravastar might look like a black hole. When we think about the supernova explosions. Those violent events destroy entropy. And that means that. At that point. The speed of light is higher than the speed of light around it. So when the supernova explosion sends particles that travel behind the shockwave. ‘
Those particles travel faster than they could travel outside that shockwave. When particles reach that plasma wave. They release energy into that thing. The plasma shockwave travels behind the radiation. And the scattering effect is strongest. Radiation. The explosion pushes material out from the star. And if the explosion is strong enough. And it forms at the point. That is small enough. That can destroy a star in its way. That the black hole will not form.
The matrioshka universe means a universe. That is full of internal structures. This means that the universe is like a matryoshka doll. Full of internal universes. And maybe we. Or the universe that we know. It is part of some larger universe.
But the idea of the universe. That form in the giant star explosion base. It is in the wave-particle duality. When a shockwave travels out from the supernova. It travels through the base energy field. This event forms energy whirls behind that shockwave.
And this causes a situation. There, those energy whirls start to crystallize into particles. This is one version of the models and hypotheses that suggest that we are living in a black hole. This theory suggests that we are in a black hole. That could be inside other black holes. But the problem is: why can't we see those other universes? The answer. It is suggested that the black hole’s event horizon mixes the information in the form. That we cannot detect.
https://scitechdaily.com/scientists-say-a-new-universe-could-form-inside-a-dying-star/
https://en.wikipedia.org/wiki/Gravastar
https://en.wikipedia.org/wiki/Higgs_field_(classical)
