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钐对基于镁的 MgSm2X4(X = S 和 Se)尖晶石的磁性和光电性能的影响及其在自旋电子学中的应用。

Impact of samarium on magnetic and optoelectronic properties of magnesium-based MgSm2X4 (X = S and Se) spinels for spintronics.

机构信息

Department of Physics, University of Lakki Marwat, Lakki Marwat, KPK, Pakistan.

Physics Department, College of Science, UAE University, Al Ain, UAE.

出版信息

PLoS One. 2024 Aug 30;19(8):e0309388. doi: 10.1371/journal.pone.0309388. eCollection 2024.

DOI:10.1371/journal.pone.0309388
PMID:39213368
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11364286/
Abstract

Investigating novel compounds has become necessary due to the need for sophisticated materials in optoelectronic devices and spintronics. Because of their unique properties, magnesium-based spinels MgSm2X4 (X = S and Se) are very promising for these applications. We used the spin-polarized PBEsol for structural properties and the PBEsol functional for mechanical behavior, both using the WIEN2k code. Both compounds' stability in the magnetic and non-magnetic phases was validated by the Birch-Murnaghan equation of state, and their stability in the cubic phase was verified by the Born stability criterion. Their ductile character was shown by the computation of Pugh's ratio and Poisson ratio. Both MgSm2S4 and MgSm2Se4 display metallic behavior in the spin-up channel and semiconducting behavior in the spin-down channel, indicating a half-metallic nature, according to TB-mBJ potential calculations. With total magnetic moments of 20 μB, both materials showed ferromagnetic properties. Samarium ions contributed 5.27 μB for MgSm2S4 and 5.34 μB for MgSm2Se4. Furthermore, we computed optical parameters in the energy range of 0 to 15 eV, such as absorption, extinction coefficient, reflectivity, dielectric function, and refractive index. Our results demonstrate the potential of MgSm2X4 spinels for future technological developments by revealing their prospective optoelectronic and spintronic applications.

摘要

由于在光电设备和自旋电子学中需要复杂的材料,因此研究新型化合物变得非常必要。基于镁的尖晶石 MgSm2X4(X = S 和 Se)具有独特的性质,因此非常适合这些应用。我们使用自旋极化 PBEsol 计算结构性质,使用 PBEsol 函数计算力学行为,这两个都使用 WIEN2k 代码。我们通过 Birch-Murnaghan 状态方程验证了这两种化合物在顺磁相和非磁相的稳定性,通过 Born 稳定性准则验证了它们在立方相的稳定性。通过计算 Pugh 比和泊松比来证明它们的延展性。根据 TB-mBJ 势计算,MgSm2S4 和 MgSm2Se4 在自旋向上通道中表现出金属行为,在自旋向下通道中表现出半导体行为,表明它们具有半金属性质。这两种材料的总磁矩均为 20 μB,表现出铁磁性质。Sm 离子对 MgSm2S4 的贡献为 5.27 μB,对 MgSm2Se4 的贡献为 5.34 μB。此外,我们在 0 到 15 eV 的能量范围内计算了光学参数,例如吸收、消光系数、反射率、介电函数和折射率。我们的结果通过揭示它们在光电和自旋电子学方面的潜在应用,展示了 MgSm2X4 尖晶石在未来技术发展中的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bc28/11364286/d184684f86ed/pone.0309388.g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bc28/11364286/d184684f86ed/pone.0309388.g009.jpg

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