Enhanced exchange bias in all-oxide heterostructures with cation-ordered ferrimagnetic double-perovskite

Xiaofu Qiu, Zelin Wang, Hetian Chen, Yuhan Liang, Xiaoyu Jiang, Yujun Zhang, Jing Ma, Fangyuan Zhu, Tianxiang Nan, Zhen Chen, Di Yi
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Abstract

The realization and control of exchange bias (EB) are highly desirable for spintronic applications. All-oxide heterostructures comprised of ferromagnetic and antiferromagnetic/multiferroic oxides provide an ideal platform to enable the electric-field control of EB, promising for energy-efficient memory and logic devices. However, the low block temperature (TB) and small bias field (HEB) hinder further advances towards room-temperature applications. Here, we report an alternative approach to enhance the interface-induced EB by using ferrimagnetic double-perovskite with B-site cation ordering. In heterostructures comprised of double-perovskite Sr2FeReO6 (SFRO) and LaFeO3 (LFO), a high TB (about 250 K) and large HEB are observed, which is significantly larger than the counterparts with LFO and ferromagnetic oxides. Further analysis suggests that the cation-ordering and ferrimagnetic spin structure of the double-perovskite could contribute significantly to the enhanced exchanged bias when interfacing with G-type antiferromagnets. Our results open a new avenue for developing all-oxides heterostructures for future magnetic technologies.

Abstract Image

具有阳离子有序铁磁性双过氧化物的全氧化物异质结构中的增强交换偏置
在自旋电子应用中,实现和控制交换偏压(EB)是非常理想的。由铁磁性和反铁磁性/多铁氧体组成的全氧化物异质结构为实现 EB 的电场控制提供了一个理想平台,有望用于高能效存储器和逻辑器件。然而,低阻滞温度(TB)和小偏置场(HEB)阻碍了室温应用的进一步发展。在此,我们报告了一种通过使用具有 B 位阳离子有序化的铁磁性双超晶石来增强界面诱导 EB 的替代方法。在由双过氧化物 Sr2FeReO6(SFRO)和 LaFeO3(LFO)组成的异质结构中,我们观察到了高 TB(约 250 K)和大 HEB,这明显大于 LFO 和铁磁氧化物的对应物。进一步的分析表明,当与 G 型反铁磁体相互作用时,双超沸石的阳离子排序和铁磁性自旋结构可能会对增强交换偏压做出重要贡献。我们的研究结果为开发未来磁性技术的全氧化物异质结构开辟了一条新途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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