The Big Bang and the history of the development of the Universe are very interesting scientific topics that are difficult for us to verify experimentally and we can only guess and make assumptions about the fact of what happened before the Big Bang. We know that the radius of the visible region of the Universe is 13.8 billion light years. This radius is limited by the lifetime of a light photon that is able to reach us from the edge of the visible Universe without preserving the radiation image. At the center of the visible spherical Universe is the Earth and so are we. But the Earth is not the center of the Universe and no one can dispute this fact. We can assume that there are two Universes: 1) our small visible region of the Universe — the Small Universe, 2) the Large Universe which is invisible to us. Some believe that the Big Universe is a Multiverse that consists of many universes outside our small Universe. Then the center of the Big Bang is the center of the Big Universe — the Multiverse. Unfortunately, even the most powerful space telescopes, Hubble and Webb, cannot determine the direction of the Big Bang in the sky. I am currently working on creating a device that will allow us to indicate in the sky the direction towards the Big Bang. I have established that the quantized Great Multiverse was formed in full before the Big Bang as a result of its filling with 4D-tetraquarks. The quantization process was stopped when, at the center of the Multiverse, the density of electromagnetic energy reached a critical state for the Big Bang to occur. Only a few cubic meters of quantized vacuum were used for the Big Bang. It was a point in the center of the Multiverse which is commonly called the singular state. It was in this singularity that 4D-tetraquarks decayed into photons and electron neutrinos from which elementary particles, atoms, molecules, bodies, planets, stars, galaxies and Black Holes were formed. This initial period in the life of the Multiverse is called inflation. I did not see anything like this in the papers. The geometry of empty space-time cannot recreate the quantized structure of the Great Multiverse and the nature of the Big Bang without knowing the source of its energy. The initial period of inflation was associated with the formation of mass in elementary particles through the use of the zero element of the periodic table. I have not seen anything like this in these new articles by mathematicians about the nature of the Big Bang: before and after. They do not understand the new quantum physics that excludes the existence of Einstein’s empty space-time. I have presented my comments in a new preprint: Remarks: Mathematicians Attempt to Glimpse Past the Big Bang. – Preprint: ResearchGate, June 2024, Download PDF: DOI: 10.13140/RG.2.2.35646.29768
The Big Bang and the history of the development of the Universe are very interesting scientific topics that are difficult for us to verify experimentally and we can only guess and make assumptions about the fact of what happened before the Big Bang. We know that the radius of the visible region of the Universe is 13.8 billion light years. This radius is limited by the lifetime of a light photon that is able to reach us from the edge of the visible Universe without preserving the radiation image. At the center of the visible spherical Universe is the Earth and so are we. But the Earth is not the center of the Universe and no one can dispute this fact.
We can assume that there are two Universes: 1) our small visible region of the Universe — the Small Universe, 2) the Large Universe which is invisible to us. Some believe that the Big Universe is a Multiverse that consists of many universes outside our small Universe. Then the center of the Big Bang is the center of the Big Universe — the Multiverse. Unfortunately, even the most powerful space telescopes, Hubble and Webb, cannot determine the direction of the Big Bang in the sky. I am currently working on creating a device that will allow us to indicate in the sky the direction towards the Big Bang.
I have established that the quantized Great Multiverse was formed in full before the Big Bang as a result of its filling with 4D-tetraquarks. The quantization process was stopped when, at the center of the Multiverse, the density of electromagnetic energy reached a critical state for the Big Bang to occur. Only a few cubic meters of quantized vacuum were used for the Big Bang. It was a point in the center of the Multiverse which is commonly called the singular state. It was in this singularity that 4D-tetraquarks decayed into photons and electron neutrinos from which elementary particles, atoms, molecules, bodies, planets, stars, galaxies and Black Holes were formed. This initial period in the life of the Multiverse is called inflation. I did not see anything like this in the papers. The geometry of empty space-time cannot recreate the quantized structure of the Great Multiverse and the nature of the Big Bang without knowing the source of its energy. The initial period of inflation was associated with the formation of mass in elementary particles through the use of the zero element of the periodic table.
I have not seen anything like this in these new articles by mathematicians about the nature of the Big Bang: before and after. They do not understand the new quantum physics that excludes the existence of Einstein’s empty space-time. I have presented my comments in a new preprint: Remarks: Mathematicians Attempt to Glimpse Past the Big Bang. – Preprint: ResearchGate, June 2024, Download PDF: DOI: 10.13140/RG.2.2.35646.29768