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Title: Kinetics of formation and structural rebuilding crystalline films
Authors: Lebedev, V. I.
Лебедев, В. И.
Keywords: Crystal formation kinetics;Nonequilibrium phase transitions;Nonequilibrium phase transitions
Issue Date: 2021
Publisher: Institute for Metals Superplasticity Problems of Russian Academy of Sciences
Citation: Popova, I.G., Blagin, A.V., Blagina, L.V., Lebedev, V.I. Kinetics of formation and structural rebuilding crystalline films // Letters on Materials. - 2021. - Volume 11. - Issue 1. - Pages 5-10
Series/Report no.: Letters on Materials
Abstract: The problem of fundamental analysis of “semiconductor film-matrix crystal” heterostructures is described. It is displayed that a universal model can be built on the basis of the quantum-statistical approach using the representations self-organization of ordered structures in systems far from spinodal isotherms and phase diagrams illustrating the conditions for the formation of films are calculated. Phase transitions of the first kind as the rearrangements of the “order-disorder” type are described within the framework of quantum theory using the Dicke model. The apparatus of two-period Green's functions is used. The thin-film structure energy is described using the pseudopotential of the crystal field, which has elements of the substrate symmetry. The influence of the surface passivation degree on the nature and relief of structural changes is shown. Signs of the formation of dimeric and dipole elements of the film relief are discussed. It is shown that the processes of particles desorption depend on the temperature and the quantity of deposited particles with which the atoms of the matrix crystal, i. e. silicon, are bound. The kinetic processes of the formation of film structures and rearrangements of their structure are shown as local phase transformations caused by the adsorption of atoms with different concentrations of the adsorbed second phase. The threshold character of the surface structure rearrangement is confirmed. It is assigned that the order parameter, determined by the shear component of the activation threshold for structure reconstruction and the level populations, depends on inhomogeneities in the distribution of atoms at the heterointerface. Under the considered conditions, these inhomogeneities are stationary nonlinear — kink-like perturbations. The characteristics of disturbances are determined by the degree of difference between the crystal chemical parameters of the matrix and deposited materials. The transition to the formation of the films at the macrolevel is interpreted as a process of self-organization of a two-dimensional structure
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