The anomalous Nernst effect of epitaxial Fe4-xNixN films on MgAl2O4(001) substrates was studied. The Ni/Fe ratio (x) in Fe4-xNixN films was changed from 0 to 2.8, and the Fe4-xNixN phase decomposed into FeNi at x = 2.2. The anomalous Nernst coefficient (S-ANE) decreased and Seebeck coefficient increased with increasing x. The transverse thermoelectric conductivity (alpha(xy)) decreased with x, which dominated the change in S-ANE. First-principles calculations of Fe4N and Fe2.8Ni1.2N showed significant differences from experimental results, possibly due to extrinsic mechanisms.
Anomalous Nernst effect of epitaxial Fe4-xNixN films on MgAl2O4(001) substrates was characterized. The Ni/Fe ratio (x) in Fe4-xNixN films was changed in the range of 0 <= x <= 2.8, and the Fe4-xNixN phase started to decompose into FeNi at about x = 2.2. The anomalous Nernst coefficient (S-ANE) decreased with x from 1.7 to 0.6 mu V/K and the Seebeck coefficient increased with x from -2.3 to 1.2 mu V/K. The transverse thermoelectric conductivity (alpha(xy)) evaluated from the experimental data showed a decrease with x and the change of alpha(xy) dominated the change of S-ANE. The anomalous Hall conductivity and alpha(xy) of Fe4N and Fe2.8Ni1.2N were obtained by first-principles calculations, showing a significant difference from the experimental results, which might be caused by the contribution from the extrinsic mechanisms.
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