After the Big Bang, a colossal number of dipoles were formed in the Universe. Since the number of quantons in one cubic meter of space-time of the Universe is about 10>75, therefore, with the destruction of only one cubic meter of quantons in the quantized space-time of the Universe, 10>75 dipoles appeared.
Since:
• the birth and decay of material matter in the Universe is an endless process,
• during the decay of material matter, the reverse process of the birth of a dipole occurs,
therefore, the appearance of dipoles in the Universe is an endless process.
A dipole has dimensions less than 10>-15 m. When approaching each other at a distance of about 10>-15 meters, dipoles can connect with each other and form conglomerates of dipoles, which are spatial complex links similar to an information code, which has been confirmed experimentally. In particular, the presence of dipoles and dipole conglomerates can be most easily observed if a small electric discharge is produced in a vacuum between two electrodes at a distance of up to 10 mm. According to all laws, the spark should follow the path of least resistance, that is, a straight line between the electrodes. But we will see zigzag lines, as if the emitted electrons encounter an invisible obstacle on their way and change their trajectory. Moreover, we will never see two identical trajectories.
Since a dipole has two directly opposite values (two electric charges of opposite polarity: "+" and "-"), therefore, a dipole is actually a bit of information, which is the minimum amount of information necessary to eliminate minimal uncertainty. A dipole conglomerate is a set of bits of information that form complex information.
Information is data about something, regardless of the form of its presentation, which is the object of collection, accumulation, transformation, management and use.
The ability of dipoles to connect with each other, forming spatial complex links similar to an information code, indicates that dipoles have the ability to self-organize and develop. The ability of information to self-organize and develop is also known from the example of the existing self-learning computer artificial intelligence.
Since the quantized space-time of the Universe is an environment in which dipoles (i.e. information) exist and propagate, therefore, the quantized space-time of the Universe is an information environment.