Multi-Fidelity Gaussian Process based Empirical Potential Development for Si:H Nanowires

05/11/2020
by   Moonseop Kim, et al.
0

In material modeling, the calculation speed using the empirical potentials is fast compared to the first principle calculations, but the results are not as accurate as of the first principle calculations. First principle calculations are accurate but slow and very expensive to calculate. In this work, first, the H-H binding energy and H_2-H_2 interaction energy are calculated using the first principle calculations which can be applied to the Tersoff empirical potential. Second, the H-H parameters are estimated. After fitting H-H parameters, the mechanical properties are obtained. Finally, to integrate both the low-fidelity empirical potential data and the data from the high-fidelity first-principle calculations, the multi-fidelity Gaussian process regression is employed to predict the H-H binding energy and the H_2-H_2 interaction energy. Numerical results demonstrate the accuracy of the developed empirical potentials.

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