Temperature dependence of the electrical resistivity of amorphous Co80−xErxB20 alloys

For many of these alloys, particularly those without metalloid components such as YFe /17/ ZrCu 1181 and TiZrBe 16,191, there is never an extended range li- near in temperature but

After annealing our samples well above Tx the resistance minima became extremely shallow (no- te the large scale in figure 1 ) and are shifted to very low temperatures so that

In the pre- sent study we report the temperature dependences of the magnetic anisotropy and the composition depen- dence of the distribution of the magnetic hyperfine fields

These factors cause ties of transition metals amorphous alloys resistance to rise with temperature, All (metal glasses) suggested that in the low the mentioned mechanisms, both

The samples show a negative temperature coefficient of the electrical resistivity (resistance anomaly) like the Kondo effect of SnMn, reported by Buckel et alJ.

They are given by the amorphous Mg-Zn alloys prepared by getter- following integrals over the partial dyna- sputtering have been reported by Hauser and mica1 structure

The upturn of the resitivity below the temperature of magnetic ordering and the positive magnetoresitance of nickel-rare-earth alloys [l] have been accounted for by a positive

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