Giant magnetocrystalline anisotropy energy in Fe--Co alloy under uniaxial compression: first-principles prediction

Wojciech Marciniak, Joanna Marciniak, José Ángel Castellanos-Reyes, Mirosław Werwiński
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Abstract

Uniaxially strained Fe--Co disordered alloys have emerged as promising candidates for cost-effective rare-earth-free permanent magnets due to their high magnetocrystalline anisotropy energy (MAE). Using first-principles, fully relativistic calculations within the coherent potential approximation and PBE exchange-correlation potential, we explore the MAE of tetragonal Fe--Co alloys under uniaxial compression. Our results reveal a previously uncharted high-MAE region, distinct from known structures and accessible through uniaxial compression.
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单轴压缩下Fe--Co合金中的巨大磁晶各向异性能:第一原理预测
单轴应变铁-钴无序合金因其高磁晶各向异性能(MAE)而成为具有成本效益的无稀土永磁体的理想候选材料。利用相干势近似和 PBE 交换相关势中的第一性原理、全相对论计算,我们探索了单轴压缩下四方铁-钴合金的 MAE。我们的结果揭示了一个以前未知的高 MAE 区域,它不同于已知的结构,并且可以通过单轴压缩进入。
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