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Paper detail

Surface Energy Driven Grain Growth Model: FePt L10 Nanoparticles

We developed a grain growth model that is based on the energy minimisation of surfaces with respect to the volume energy and the grain's environment. We used the well-known FePt L1$_\text{0}$ system to discover the physical factors that drive the shape and size of FePt grains. It was found that the preferred growth directions are along symmetry planes that are determined by the basic crystal and driven by surface energy minimisation. The model developed here can be used to predict a grain's growth and shape as a function of atomic number and composition. This means that by tailoring a grain's surface and grain boundaries the shape of the magnetic grains can be manipulated.

preprint2022arXivOpen access
Connor SkellandGino Hrkac
cond-mat.mtrl-sciphysics.comp-phphysics.data-an
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Connor SkellandGino Hrkac

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