A mixed radial, angular, three-body distribution function as a tool for local structure characterization: Application to single-component structures

SV Sukhomlinov and MH Muser, JOURNAL OF CHEMICAL PHYSICS, 152 (2020).

DOI: 10.1063/5.0007964

A mixed radial, angular three-body distribution function g(3)(r(BC), theta (ABC)) is introduced, which allows the local atomic order to be more easily characterized in a single graph than with conventional correlation functions. It can be defined to be proportional to the probability of finding an atom C at a distance r(BC) from atom B while making an angle theta (ABC) with atoms A and B, under the condition that atom A is the nearest neighbor of B. As such, our correlation function contains, for example, the likelihood of angles formed between the nearest and the next-nearest-neighbor bonds. To demonstrate its use and usefulness, a visual library for many one-component crystals is produced first and then employed to characterize the local order in a diverse body of elemental condensed-matter systems. Case studies include the analysis of a grain boundary, several liquids (argon, copper, and antimony), and polyamorphism in crystalline and amorphous silicon including that obtained in a tribological interface.

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