Muhammad Azeem, Udayan Anakha, Michal Mazur, Qaisar Abbas, A. Berezner
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引用次数: 0
摘要
在钆镍锌铁氧体纳米粒子集合的 Gd2O3/GdFeO3 亚相界面上观察到了强反铁磁交换耦合的迹象。杂化畴壁与界面两侧的磁性子相间存在交换耦合。耦合的起源是布洛赫波与畴壁内能态的量子干涉。耦合机制在低温下会加剧。滞后环中间(H=0 时)的收缩被认为是反铁磁跃迁的结果,在 5K 时收缩变窄。5 K 时的收缩有效地将磁滞回线分为两部分,将自旋矢量分量限制在正象限和负象限。磁感应强度清楚地表明反铁磁转变温度(TN)约为 17 K。
Strong antiferromagnetic exchange coupling at Gd2O3/GdFeO3 interfaces in nanoparticle ensembles
Signatures of strong antiferromagnetic exchange coupling at the interface of Gd2O3/GdFeO3 subphases of gadolinium nickel zinc ferrite nanoparticle ensemble have been observed. Hybridized domain walls are exchange coupled to the magnetic subphases on both sides of the interface. Origin of the coupling is in the quantum interference of the Bloch waves with the energy states within the domain walls. The coupling mechanism intensifies at low temperatures. A constriction in the middle of the hysteresis loop (at H=0) is believed to be the result of antiferromagnetic transitions which becomes narrow at 5K. The constriction at 5 K effectively divides the hysteresis loop in two parts, confining spin vector components in the positive and negative quadrants. The magnetic susceptibility clearly shows antiferromagnetic transition temperature (TN) of approximately 17 K.
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