Physical and information processes in a condensed matter and biological systems with large number of links
Head
Vladimir I. Vysotskii,
Registration Date
06-03-2015
Organization
Taras Shevchenko Kiev university
Description
Proposed and studied a new mechanism of action of suppression of the Coulomb barrier on the likelihood of the process of interaction between charged particles. The effect of random collisions and random force in the formation of coherent state correlated particles, especially the formation of coherent correlated states of interacting particles in the formation or elimination of cracks in condensed matter. Established that a significant mechanism (many orders of magnitude) increase the likelihood podalannya Coulomb potential barrier associated with fluctuations sync pulse and the kinetic energy of the particle, which is a potential hole in superpozytsiynomu condition. Conditions for the implementation of this process. Alternatyvnyy applied approach to describe the effect of diffusion in multicomponent fluids. Instead of determining the dependence of the diffusion coefficient of condition and / or space-time variables used other (non-linear) diffusion law, but interdiffusion coefficients that are constant system. Established that nonlinear interaction processes in multicomponent diffusion of substances system give rise to a diffusion-controlled space-time modulation component concentrations, characteristics which depend on the parameters that determine the speed and nonlinearity corresponding interdiffusion.
Head: Vladimir I. Vysotskii. Physical and information processes in a condensed matter and biological systems with large number of links.
Taras Shevchenko Kiev university. № 0215U004353
