Annealing and neutron irradiation effect on the magnetic properties of

The annealing and neutron irradiation effects on the magnetic properties of amorphous Fe₇₃.₅Cu₁Nb₃Si₁₃.₅B₉ alloy were investigated. The sample was exposed by fast (4.85 x 10¹⁶ n_f cm²) and thermal (8.01 x 10^{18 n}_th cm²) neutrons at the temperature of 473 K. The complex magnetic permeability spectra changed with the ac field amplitude, reflecting the contribution of wall motion and rotational magnetization in as-quenched sample. The neutron irradiation sample showed the drastic decrease of permeability from wall motion but the increase of permeability from rotational magnetization, compared to those in as-quenched and annealed samples at 473 K. As a whole, dc permeability in neutron irradiated sample was larger than that of the as-quenched sample. The measurement of hysteresis loop showed the increase of magnetic softness after the neutron irradiation, but saturation magnetization was insensitive to the neutron irradiation. These results indicated that magnetic softness was improved by the enhancement of rotational magnetization