In some very interesting models, the Big Bang was the event, where two material types or quantum fields impact. In this text, the material can also mean wave movement. So the high energy material that can be of higher energy level than anything is in our three-dimensional universe. And an extremely low energy material just impacted. That thing requires that there is forming some kind of bubble between the second and the fourth dimension that pulls material together.
The fourth dimension is the extreme energy level where material cannot interact with three-dimensional particles. So that means the material's ability to interact with its environment because its energy level rises too high. That thing makes the material invisible. But the fourth dimension is also a quantum system and sometimes it leaks energy. The material attempts to reach the minimum energy level which is the first dimension. That thing turns material to the point.
The idea is that the material has three dimensions in our universe so all particles have length, width, and depth. But if we decrease the energy level of the material it gets a new form that is 2 dimensional. So the material loses its depth and turns to form that it has only length and width. When energy drops even lower energy one of those particles will turn to a point. And then the energy starts to travel at that point. The thing forms the energy hill or energy tower that starts to rise.
Above is the image that portrays Higgs field. When the energy level of the wave moves around the center that center can start to collect that energy at one point forming an energy hill. If the material starts to lose energy it forms the pothole. And it is possible. That the energy hill and pothole impact caused huge destruction.
"The Higgs field is a field of energy that is thought to exist in every region of the universe. The field is accompanied by a fundamental particle known as the Higgs boson, which is used by the field to continuously interact with other particles, such as the electron. Particles that interact with the field are "given" mass and, in a similar fashion to an object passing through a treacle (or molasses), will become slower as they pass through it. The result of a particle "gaining" mass from the field is the prevention of its ability to travel at the speed of light". (Wikipedia/Higgs Field)
When that energy pillar rises high enough it just pulls energy away from some photons. And there turns the hole in the energy roof. The energy roof in the third dimension is the energy floor in the fourth dimension. When that energy tower reaches the level of the energy level of the fourth dimension there is a possibility that two particles or superstrings are making quantum entanglement. Then the energy level of the particles of the fourth dimension starts to decrease.
And then those two energy bubbles are touching each other. Causing a huge explosion known as the Big Bang. When those quantum hills are pushing against each other. They are pumping energy to the layer between them. That energy ball denies that those quantum fields can travel through each other. Then it sends the wave movement across the space around it.
Why does the high energy level make particles invisible? The reason, why researchers think that the high energy level turns particles invisible is that the Higgs boson is the smallest and the most high-energy particle. When the Higgs boson releases its energy it turns after a couple of stages to an electron.
The reason for that is that particle sends radiation too often. If we think about things like gamma rays the thing that makes high-energy radiation hard to detect is that the sender of that radiation or energy impulses sends those impulses too often. And that makes it hard to detect that radiation because they have no time to send the energy impulses. When energy impulses reach the particle it loads that energy to its quantum field.
When energy pumping ends receiving particle sends energy that it stores from those energy impulses. So high energy radiation is hard to detect because receiving particles have no time to release the extra energy that they get. So the reason why we cannot see material that is in the fourth dimension is that it sends energy impulses so often that 3D material has no time to release the extra energy that it gets from that radiation.
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