IRRADIATION OF CARBON DIOXIDE WITH A VACUUM UV SOURCE AND OBTAINING OF STRATOSPHERIC OZONE
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Volume 13 (1), February 2023, Pages 150-155
Marat Huseynov1, Elshan Aliyev2, Hilal Tahirli3, Tarana Aghadiyeva4
1Scientist, Science Research Institute "Geotechnological problems of oil, gas and chemistry", Azerbaijan. Email id: This email address is being protected from spambots. You need JavaScript enabled to view it.
2Dosent, leading researcher, 1Scientist, Science Research Institute "Geotechnological problems of oil, gas and chemistry", Azerbaijan. Email id: This email address is being protected from spambots. You need JavaScript enabled to view it.
3Senior researcher, Science Research Institute "Catalysis and Inorganic Chemistry" of ANAS, Azerbaijan. Email id: This email address is being protected from spambots. You need JavaScript enabled to view it.
4Scientist, Science Research Institute "Geotechnological problems of oil, gas and chemistry", Azerbaijan. Email id: This email address is being protected from spambots. You need JavaScript enabled to view it.
ABSTRACT
It has been known for more than 100 years that carbon dioxide absorbs photons in the ultraviolet and infrared ranges of radiation, creating a greenhouse effect. However, so far no one has answered the question: what is a photon?
It is known that a photon has corpuscular and wave properties, has a certain pressure. An interesting experiment was carried out when a photon was dissected using Wilson chamber and it left traces of the opposite sign. The correct conclusion was made that one trace in the Wilson chamber was left by an electron, and the other - by a positron.
There were other experiments, for example: birefringence of light in quartz crystals, Icelandic spar, etc., but there were no correct conclusions made about what a photon is.
A photon is an electric dipole, consisting of an electron and a positron charges, without a spin charge-conjugate formation, which has a dipole magnetic field.
Carbon dioxide, absorbing photons with a mass of 18.2×10-31 kg, being structured in the core, turns into triatomic oxygen, that is, into stratospheric ozone.
A photon absorbs only a carbon atom that has an excess of spins. Photons absorbed by carbon dioxide (electric dipoles) having a magnetic field interact with the magnetic force lines of the dipole magnetic field of the Earth, and as a result of such interaction, triatomic oxygen-ozone moves into the stratosphere. Stratospheric ozone is not explosive in all aggregate states and at high pressures. In the atmosphere, it enters into a nuclear interaction with neutrons emanating from the sources of future earthquakes, forming water. So, naturally, the ozone layer of the Earth is depleted, replenishing the hydrosphere.
Irradiation of CO2 and production of stratospheric ozone is a solution to the problem of climate warming. Stratospheric ozone can be widely used in the defense industry. An airship filled with stratospheric ozone will be much more efficient than airships filled with hydrogen or helium.
The production of stratospheric ozone from carbon dioxide is a fundamental discovery in the field of photonuclear physics.
Keywords: electric dipole, photon, carbon dioxide, stratospheric ozone, photonuclear reaction.