The Emergence of Material Matter
As a result of the Big Bang, the destruction of quantons occurred at the singularity point. The magnetic charges that were part of the quantons were destroyed, releasing the electromagnetic energy of the quantons in the form of photons (quanta of electromagnetic radiation), and the massless electric charges of opposite polarity that were part of the quantons formed electric dipoles (a system of two equal in magnitude and opposite in sign point electric charges located at some distance from each other).
Thus, as a result of the destruction of quantons, a colossal amount of electromagnetic energy appeared in the Universe in the form of photons and free electric dipoles, which led to a violation of the equilibrium of the quantized space-time of the Universe.
Electric dipoles (hereinafter referred to as dipoles) are massless unstable particles capable of disintegrating into individual electric charges. When a photon hits a dipole, it disintegrates into two massless electric charges of negative and positive polarity.
When a massless electric charge of negative polarity appears in quantized space-time, quantons are drawn to the center of the said negative charge, as a result of which quantized space-time is deformed (curved) and as a consequence an electron is born (an elementary particle of material matter).
Similarly to the birth of an electron, when a massless electric charge of positive polarity appears in quantized space-time, a positron is born, which is an antiparticle in relation to an electron and differs from an electron only in the sign of the polarity of the charge.
Thus, with the birth of an electron and a positron, mass (i.e. material matter) appears. The birth of an electron and a positron from a vacuum is confirmed by numerous experimental facts that indicate the presence of a quantized structure in the space-time of the Universe.
By approximately the same analogy as the electron and positron are born, when photons enter a conglomerate of dipoles (for conglomerates of dipoles, see the chapter “Interaction of Information and Energy” below), more complex elementary particles with mass are born, which subsequently form all the chemical elements presented in the periodic table of chemical elements.