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Strongly enhanced magnetic moments in ferromagnetic FeMnP$_{0.50}$Si$_{0.50}$

The compound FeMnP$_{0.50}$Si$_{0.50}$ has been studied by magnetic measurements, Mössbauer spectroscopy and electronic structure and total energy calculations. An unexpected high magnetic hyperfine field for Fe atoms located at the tetrahedral Me(1) site in the Fe$_2$P structure is found. The saturation moment derived from magnetic measurements corresponds to 4.4 $μ_B$/f.u. at low temperatures, a value substantially higher than previously reported, but in accord with the results from our electron structure calculations. This high saturation moment, a first order nature of the ferromagnetic transition and a tunable transition temperature make the Fe$_{2-x}$Mn$_{x}$P$_{1-y}$Si$y$ system promising for magnetocaloric applications.

preprint2011arXivOpen access
Matthias HudlLennart HäggströmErna-Krisztina Delczeg-CzirjakViktor HöglinMartin SahlbergLevente VitosOlle ErikssonPer NordbladYvonne Andersson
cond-mat.mtrl-sci
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Open access9 authors1 topic
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Matthias HudlLennart HäggströmErna-Krisztina Delczeg-CzirjakViktor HöglinMartin SahlbergLevente VitosOlle ErikssonPer NordbladYvonne Andersson

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