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28 March 2024
 
  » arxiv » cond-mat/0404510

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Ab initio atomistic thermodynamics and statistical mechanics of surface properties and functions
Karsten Reuter ; Catherine Stampfl ; Matthias Scheffler ;
Date 21 Apr 2004
Journal Handbook of Materials Modeling, Vol. 1: Fundamental Models and Methods. (Ed.) Sidney Yip. Kluwer, Dordrecht 2004
Subject Materials Science | cond-mat.mtrl-sci
AbstractPrevious and present "academic" research aiming at atomic scale understanding is mainly concerned with the study of individual molecular processes possibly underlying materials science applications. Appealing properties of an individual process are then frequently discussed in terms of their direct importance for the envisioned material function, or reciprocally, the function of materials is somehow believed to be understandable by essentially one prominent elementary process only. What is often overlooked in this approach is that in macroscopic systems of technological relevance typically a large number of distinct atomic scale processes take place. Which of them are decisive for observable system properties and functions is then not only determined by the detailed individual properties of each process alone, but in many, if not most cases also the interplay of all processes, i.e. how they act together, plays a crucial role. For a "predictive materials science modeling with microscopic understanding", a description that treats the statistical interplay of a large number of microscopically well-described elementary processes must therefore be applied. Modern electronic structure theory methods such as DFT have become a standard tool for the accurate description of individual molecular processes. Here, we discuss the present status of emerging methodologies which attempt to achieve a (hopefully seamless) match of DFT with concepts from statistical mechanics or thermodynamics, in order to also address the interplay of the various molecular processes. The new quality of, and the novel insights that can be gained by, such techniques is illustrated by how they allow the description of crystal surfaces in contact with realistic gas-phase environments.
Source arXiv, cond-mat/0404510
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