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Amorphous alloys of composition FeₗPd₈₀-ₗP₂₀ (1344) have been prepared by rapid quenching from the liquid state. The M\"ossbauer effect in Fe^57 has been used to study the magnetic properties of these materials. The hyperfine field distribution has been determined from these experiments, as a function of composition and temperature. The results indicate that the electronic state of Fe in these alloys remains essentially constant throughout the composition range, and that the Pd d band is filled by electron transfer from phosphorus. The variation of the magnetic transition temperature with composition has been determined by combining the M\"ossbauer-effect results with complementary magnetic measurements. There is a sharp change in slope in this curve at x26. Below this concentration, the long-range magnetic order which prevails in the higher-Fe-concentration alloys breaks down, giving rise to a more local ordering. The M\"ossbauer-effect results confirm the existence of weakly coupled Fe atoms in all the amorphous Fe-Pd-P alloys. These atoms reside in low effective fields, and can participate in the spin-flip-scattering process which produces a Kondo effect (resistivity minimum). The large critical concentration observed is also an indication that the spin correlations are greatly reduced in these amorphous alloys.
Sharon et al. (Tue,) studied this question.