materialscloud:2020.129
Published October 22, 2020 | Version v2
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Pure Magnesium DFT calculations for interatomic potential fitting

Creators

  • 1. Laboratory for Multiscale Mechanics Modeling, Institute of Mechanical Engineering, École Polytechnique Fédérale de Lausanne (EPFL), CH-1015 Lausanne, Vaud, Switzerland

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Description

This dataset provides DFT (density functional theory as implemented in VASP, Vienna Ab Initio Simulation Package) calculations for pure Magnesium. It was designed by Binglun Yin, Markus Stricker and William A. Curtin for fitting a neural network potential with Behler-Parrinello symmetry functions. Binglun Yin carried out the calculation. It corresponds to a dataset that is commonly used to fit interatomic potentials for mechanics applications and includes structure-energy relationships for structures used to calculate: 1. Bulk properties 2. Generalized stacking fault energies 3. Decohesion and relaxed surfaces 4. Dimer 5. Corner and rod geometries 6. Vacancy formation energy

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References

Journal reference
M. Stricker, B. Yin, E. Mak, and W. A. Curtin, Physical Review Materials, 4, 103602 (2020), doi: 10.1103/PhysRevMaterials.4.103602