Multiscale Modeling of Ion Dynamics in Memristive Elements

Abstract: A multiscale computational scheme is proposed for ion dynamics that allows modeling based on primary information—data on the chemical composition of the material and its crystal structure. The scheme includes quantum mechanical and molecular dynamics modeling as well as Monte Carlo simulation of ion and electron dynamics taking into account the real crystal structure. Approbation of the proposed approach is carried out on a silicon oxide memristive element. The results of computational experiments are presente… Show more

“…Andrey A. Zhuravlev et al [4] propose a multiscale computational scheme for ion dynamics that allows modelling based on primary informationdata on the chemical composition of the material and its crystal structure. The scheme includes quantum mechanical and molecular dynamics modelling and Monte Carlo simulation of ion and electron dynamics considering the crystal structure.…”

Mathematical Modelling in Materials Science of Electronic Components

“…Andrey A. Zhuravlev et al [4] propose a multiscale computational scheme for ion dynamics that allows modelling based on primary informationdata on the chemical composition of the material and its crystal structure. The scheme includes quantum mechanical and molecular dynamics modelling and Monte Carlo simulation of ion and electron dynamics considering the crystal structure.…”

Mathematical Modelling in Materials Science of Electronic Components