Magnetic properties of amorphous Ni-B alloys

Results of magnetization measurements carried out on rapidly quenched amorphous Ni 1-x B x alloys in the temperature range from 4.2 to 300 K in fields up to 15 kOe are presented and discussed. For the alloys with x=0.308,0.34, and 0.37, the magnetic susceptibility is found to comprise two contributions: a nonmagnetic contribution arising from the Pauli spin paramagnetism and a magnetic contribution resulting from trace iron impurities and giant nickel moments. The density of states at the Fermi level, N(E F ), evaluated from the temperature-independent part of the Pauli paramagnetic contribution, is found to vary linearly with the d-band occupation. By contrast, the amorphous Ni 81.6 B 18.4 alloy exhibits a magnetic behavior which can be completely accounted for in terms of a theory developed for very weak itinerant ferromagnets. Moreover, a comparison of the magnetic properties of this alloy with those observed for other weak itinerant crystalline ferromagnets strongly suggests an Invar-like behavior for the alloy in question.