Abstract
The use of modern applied computer programs expands the possibility of multicomponent statistical analysis in materials science. The procedure for applying the method of multiple correlation and regression analysis for the study and modeling of multifactorial relationships of physical characteristics in crystalline structures is considered. The consideration is carried out using single crystals of undoped gallium arsenide as an example. The statistical analysis involved a complex of seven physical characteristics obtained by non-destructive methods for each of 32 points along the diameter of the crystal plate. The data array is investigated using multiple correlation analysis methods. A computational model of regression analysis is built. Based on it, using the programs Excel, STADIA and SPSS Statistics 17.0, statistical data processing and analytical study of the relationships of all characteristics are carried out. Regression relationships are obtained and analyzed in determining the concentration of the background carbon impurity, residual mechanical stresses, and the concentration of the background silicon impurity. The ability to correctly conduct multiple statistical analysis to model the properties of a GaAs crystal is established.New relationships between the parameters of the GaAs crystal are revealed. It is found that the concentration of the background silicon impurity is related to the vacancy composition of the crystal and the concentration of cents EL2. It is also found that there is no relationship between the silicon concentration and the value of residual mechanical stresses. These facts and the thermal conditions for the formation of point defects during the growth of a single crystal indicate the absence of a redistribution of background impurities during cooling of an undoped GaAs crystal.The use of the multiple regression analysis method in materials science allows not only to model multifactor bonds in binary crystals, but also to carry out stochastic modeling of factor systems of variable composition
Highlights
There is no doubt that in modern materials science modeling of the structural properties of crystals occupies a fundamentally important place in the process of improving the technologies for their preparation and application
The aim of research is to consider the effectiveness of using multiple correlation analysis to study and model the structural, electrophysical, and mechanical properties of crystals with multifactor bonds using single crystals of semi-insulating undoped (SIU) Gallium arsenide (GaAs)
Determination of residual mechanical stress According to the results of stepwise regression, it is found that the value of residual mechanical stresses σ in the presented sample varies depending on changes in the concentration of dislocations Nd and the vacancy composition of the crystal Z
Summary
M. Litvinova Doctor of Pedagogical Sciences, PhD (Physics and Mathematics), Associate Professor*. V. Zavodyannyi PhD, Associate Professor Department of Physics and General Engineering Disciplines Kherson State Agrarian University Stritenska str., 23, Kherson, Ukraine, 73006. O. Shtanko PhD, Associate Professor* *Department of Software Engineering, Physics and Mathematics** **Kherson Branch of Admiral Makarov National University of Shipbuilding Ushakova ave., 44, Kherson, Ukraine, 73022
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