Rol rasčetov elektronnoj struktury iz pervych principov v sovremennom materialovedenii, časť II.

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Title in English	The role of ab initio electronic structure calculations in contemporary materials science, part II
Authors	ŠOB Mojmír FRIÁK Martin WANG Ligen KURIPLACH Jan VITEK Václav
Year of publication	2007
Type	Article in Periodical
Magazine / Source	Journal of Functional Materials
MU Faculty or unit	Faculty of Science
Citation
Field	Solid matter physics and magnetism
Keywords	electronic structure; computational materials science; magnetism; grain boundaries; theoretical strength
Description	The state-of-the-art ab initio electronic structure calculation methods in solids are briefly reviewed and their role in contemporary materials science is discussed. Their applications are illustrated on the following problems: (i) magnetism of iron and its changes during phase transformations, (ii) theoretical tensile strength of metals and intermetallics, (iii) generation of interatomic potentials for large-scale computer simulations of defect configurations, (iv) positron annihilation studies of nanocrystalline materials.
Related projects:	Quantum-mechanical studies of strength, stability and phase transformations in advanced intermetallic compounds Physical and chemical properties of advanced materials and structures Theoretical studies of structure and magnetic properties of internal interfaces in metallic materials