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Competition between ferromagnetic and antiferromagnetic states in Al8.5-xFe23Ge12.5+x (0<=x<=3)

Polycrystalline Al7+xFe23Ge14-x-type orthorhombic Al8.5-xFe23Ge12.5+x (0<=x<=3) compounds were studied by X-ray diffraction measurement, metallographic examination, and magnetization and electrical resistivity measurements. The lattice parameters show anisotropic x dependences, reflecting a lower symmetry of rather complex crystal structure. In the x=0 sample, a ferromagnetic (FM) transition occurs at the Curie temperature TC of 255 K, which is systematically reduced with increasing x and disappears at x=2.5 where an antiferromagnetic (AFM) ground state is realized. The Neel temperature TN seems to appear at x>=1, and grows to 143 K at x=3 with the increment of x. In the intermediate range of x (1<=x<=2), a FM to AFM phase transition occurs below TC. In the AFM phase, the electrical resistivity rho shows a Fermi surface instability characterized by the upturn of rho below approximately TN. The competition between the FM and AFM states would be ascribed to the anisotropic x dependences of Fe-Fe bond lengths.

preprint2020arXivOpen access
Jiro KitagawaGenta YakabeAkinori NakayamaTerukazu NishizakiMasami Tsubota
cond-mat.mtrl-sci
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Jiro KitagawaGenta YakabeAkinori NakayamaTerukazu NishizakiMasami Tsubota

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