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Ab-initio study of the electronic structure and magnetic properties of Ce$_2$Fe$_{17}$

The Ce$_2$Fe$_{17}$ intermetallic compound has been studied intensely for several decades; its low-temperature state is reported experimentally either as ferromagnetic or antiferromagnetic by different authors, with a measured ordering temperature ranging within a hundred Kelvin. The existing theoretical investigations overestimate the experimental total magnetic moment of Ce$_2$Fe$_{17}$ by 20-40 % and predict a ferromagnetic ground state. By means of first-principle electronic structure calculations, we show that the total magnetic moment of Ce$_2$Fe$_{17}$ can be reproduced within the Local Density Approximation while functionals based on the Generalized Gradient Approximation fail. Atomistic spin dynamics simulations are shown to capture the change in the magnetic state of Ce$_2$Fe$_{17}$ with temperature, and closely replicate the reported helical structure that appears in some of the experimental investigations.

preprint2022arXivOpen access
Alena VishinaOlle ErikssonOlga Yu. VekilovaAnders BergmanHeike C. Herper
cond-mat.mtrl-sci
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Alena VishinaOlle ErikssonOlga Yu. VekilovaAnders BergmanHeike C. Herper

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