Topological framework for local structure analysis in condensed matter

Emanuel A. Lazar, Jian Han, David J. Srolovitz

Research output: Contribution to journalArticlepeer-review

92 Scopus citations

Abstract

Physical systems are frequently modeled as sets of points in space, each representing the position of an atom, molecule, or mesoscale particle. As many properties of such systems depend on the underlying ordering of their constituent particles, understanding that structure is a primary objective of condensed matter research. Although perfect crystals are fully described by a set of translation and basis vectors, real-world materials are never perfect, as thermal vibrations and defects introduce significant deviation from ideal order. Meanwhile, liquids and glasses present yet more complexity. A complete understanding of structure thus remains a central, open problem. Here we propose a unified mathematical framework, based on the topology of the Voronoi cell of a particle, for classifying local structure in ordered and disordered systems that is powerful and practical. We explain the underlying reason why this topological description of local structure is better suited for structural analysis than continuous descriptions. We demonstrate the connection of this approach to the behavior of physical systems and explore how crystalline structure is compromised at elevated temperatures. We also illustrate potential applications to identifying defects in plastically deformed polycrystals at high temperatures, automating analysis of complex structures, and characterizing general disordered systems.

Original languageEnglish
Pages (from-to)E5769-E5776
JournalProceedings of the National Academy of Sciences of the United States of America
Volume112
Issue number43
DOIs
StatePublished - 27 Oct 2015
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2015 PNAS.

Funding

FundersFunder number
National Science Foundation
National Science Foundation1507013

    Keywords

    • Atomic systems visualization
    • Structure classification
    • Voronoi topology

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