Exchange Bias Training Effect in GdBaCo2O5.5 Cobaltite
2019
The nature of the training effect in exchange bias compounds, which consists in a decrease in the exchange bias field HEB under magnetic field cycling, is clarified. It is shown that the training effect in GdBaCo2O5 + δ cobaltite with δ ≈ 0.5 is caused by a decrease in magnetization. Depending on time, magnetization M(t) decreases sharply after the first cycle and slowly in subsequent N cycles. A direct relationship (proportionality) is established between the decrease in the magnetization M(t) of ferromagnetic particles and the change of the field HEB(t). It is assumed that the cooling of a sample in a magnetic field gives rise to small (single-domain) and large ferromagnetic clusters in an antiferromagnetic environment. The sharp decrease in M(t) and HEB(t) and the deviation of the function HEB(N) from the well-known power-law relation ΔHEB ∝ N–1/2 with N > 1 is explained by the transformation of large ferromagnetic clusters into a multidomain state under magnetic field cycling. The results are consistent with the phenomenological model of Meiklejohn and Bean, which predicts a linear dependence of the exchange bias on the ferromagnetic magnetization of a ferromagnet/antiferromagnet structure.
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
31
References
2
Citations
NaN
KQI