Magnetization jumps in nanostructured Nd–Fe–B alloy at low temperatures

Magnetic properties of the nanostructured isotropic alloy on the base of Nd2Fe14B type phase were investigated at low temperatures. The evaluated average grain size of this phase was much smaller than its critical single domain diameter. Hence the magnetization and demagnetization processes were expected to be performed by coherent magnetization rotation. For such coercivity type system magnetization jumps were revealed on the demagnetization hysteresis loop branch in the vicinity of the coercive force at temperatures below 4K. It was shown that magnetization jumps have a stochastic behavior and their number strongly depends on the temperature and the mass of measured samples. High temperature spikes corresponding to magnetization discontinuities were observed. All these results allowed to propose that magnetization jumps in nanostructured magnetics with magnetization rotation reversal processes comply with the local heating model. •Magnetization reversals of the nanostructured Nd–Fe–B-type alloy were obtained below 4K.•Magnetization jumps were first observed for magnetization rotation coercivity type magnets.•Staircase magnetization reversal was explained within the framework of the local heating model.