The influence of microwave radiation from the geocosmos on the state of a living organism

Abstract

The cardinal problem of biophysics is insufficient understanding of the microwave radiation influence on a living organism. Microwave fluxes enter the biosphere from the earth’s ionosphere during solar flares and geomagnetic storms, and also from the anthropogenic background. The task of the work was to present quantum-mechanical estimates of the ionosphere influence on the biosphere. Estimates for aqueous media of an organism are made within the framework of a new concept which describes the processes of formation of polyatomic Rydberg molecules built from their parent molecules by adding a proton, which is possible due to their high affinity for protons. The resulting ions are neutralized by capturing an electron into the Rydberg orbital, which is confirmed in experiments for the gases and liquids. The enhancement of the associative properties of highly diluted biologically active solutions under the influence of microwave flows is also investigated. One of the best partners in the mechanism of increasing formation of associates with the participation of microwave fluxes are water molecules (with its high proton affinity). When the number of water molecules grows with superdilution, an increasing number of microwave quanta are involved in the associate formation of water-containing biocomponents. An interpretation of the phenomenon of sporadic “non-reproducibility” of bioexperiments and contribution of geocosmic factors to the arthritis and viral pathology are presented.