M. Kundenko, Andrii Rudenko, Olga Iegorova, Olexiy Iegorov, Vitalii Mardziavko
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Model of Pulses Propagation in Cellular Structures of Fibers
- The article examines the internal processes in a cell under electromagnetic influence. In the course of the study, a modification of a number of basic radio physical models of the functioning of a grain cell and a solution to the problem of resonance frequencies in an operating electrochemical installation are proposed. Frequency curves are considered regardless of the parameters of the inductors in the range from 0.2 to 0.5 Ohm, taking into account the parasitic components. Parasitic bandwidths and delays are taken into account, as well as spurious frequency components up to the fourth harmonic. The study uses the traditional basic physical mechanisms of membrane conductivity, namely the conductivity of sodium, potassium and calcium ions. In standard radio physical models, the effect of short pulses is considered, the use of which can cause frequency resonance, leading to broadband interaction and the occurrence of nonlinear electromagnetic intercellular resonances. It has been proved that the transport of substances through the cell membrane is a controlled probabilistic process of continuous movement of molecules and ions through the cell in two directions - from the environment surrounding the membrane and to the membrane environment. These phenomena can be associated with analytic dependence.
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