When we think of the young universe as a hot and dense place, we can make the model to that point. The problem with that model is that universe already exists at that point. If we try to model the Big Bang itself. We must realize that nobody knows what was before Big Bang.
Weaknesses in all theories about the Big Bang is that they are modeling a universe that already exists. If the universe exists 1/1000 second that means the universe already exists.
So if we think of the origin of the universe we must realize that the material travels in space and time. And if we think about the time cone there is the possibility that material and antimaterial touched each other in the same point. But what is the origin of those hypothetical materia-antimateria particles? Was it the Schwinger effect that formed material when two wave movement lines impacted? That means two white holes could send their beam to the same point.
If a quantum egg formed universe, where that egg came from?
Above: we see a model of the Higgs boson. Those bosons are in their gravitational pools. And that image could also portray the multiverse. The multiverse is not a theory. It's a philosophical model that there should be another universe and Big Bangs. And if those other universes are true there is the possibility that all universes in the hypothetical multiverse have the same proto-particles that are between the photon and Higgs boson.
Those mystery particles are as close to the first particles in the universe as possible. The question is does the vaporization of the earliest particles the reason for the Big Bang? And could those particles whose energy level is higher than Higgs boson be the result of impacts of photons? The thing is t if two photons are identical and their energy level is the same they could form the Schwinger effect. So could those mythical first particles form straight from photons?
In wild theory two light cones that are from two energy clouds impacted together. And that thing formed the Big Bang.
But the time cone can also give another model. That model is that when material or wave movement travels in space the focus of that cone is the moment where it is at the same point as the observer. The accuracy information accuracy is at the highest level when it faces the hypersurface of the present. So the hypersurface of the present is the point where the material is the sharpest.
When the light cone turns to the past. The size of the material or information turns larger. The uncertainty in information expands. So in that very wild theory, two material or wave movement (energy)clouds travel in space and time. And then, at one moment the cones that travel behind those clouds in space and time touched each other.
The next theory is two weaknesses. The requirement for that theory is that there was some kind of quantum field. That existed before the Big Bang. In some models, the Big Bang was some kind of wormhole that took energy from somewhere to the Higgs field. But the question is where that wave movement formed that impacted with mysterious Higgs field.
All models that we create about the Big Bang have weaknesses. They require. There was some kind of energy field or material before the Big Bang.
The Big Bang is a problematic theory. It was some kind of burst or thing where material reached a certain energy level. But the question is what is the origin of that material? Maybe it was some kind of quantum egg that started to spin. Then that quantum egg divide. And then that thing formed crossing energy fields that formed the Schwinger effect.
But in some theories, the gravitation turned the opposite. In that model. Something changed the gravitational effect opposite inside the quantum egg. And then the quantum egg started to expand.
Gravitation can turn the opposite. Gravitation is wave movement as light and other electromagnetic radiation are. So if there is a formed gravitational wave source. That sends gravitational counterwaves that thing turns gravitation opposite.
The system must just send gravitational waves in the opposite direction than the gravitational center sends. So if the gravitational field is the same as the Higgs field the energy hill in that field can cause a situation where the higher energy field with the same frequency turns the major field effect opposite.
The problem with quantum eggs is that the origin of that structure remains unknown. In the same way as in quantum eggs, that requires the Higgs field's existence before the Big Bang.
If there are many universes, the idea of the Big Bang could be easy to explain. There was some kind of quantum egg, or quantum spot where the energy of the Higgs field turned higher. Because the frequency of that higher energy point or energy hill was higher than the other Higgs field that thing caused an explosion. That explosion acted like a giant vacuum bomb.
It pushed the Higgs field away forming the cosmic vacuum. Then that Higgs field dropped back inside that cosmic vacuum. And after that the wave that impacted in the middle of that bubble of nothingness or emptiness. That formed thing called the Big Bang. Then the wave movement starts to travel outside that collapsing bubble and forms whirls where the Schwinger effect formed the first particles. But that requires the existence of the energy field before the Big Bang.
https://bigthink.com/13-8/quantum-egg-birth-universe/
https://www.sciencenews.org/article/primer-long-sought-higgs-boson
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