自旋电子学用机械稳定半heusler VSnX (X = Pt, Pd)合金的半金属丰度、磁性和光学性质:DFT研究

IF 2.8 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Faiza Firdous, Qurat ul Ain, Saif M. H. Qaid, Masood Yousaf, Hamid M. Ghaithan, Abdullah Ahmed Ali Ahmed, Junaid Munir
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引用次数: 1

摘要

自旋电子学的最新进展揭示了半赫斯勒合金由于其高自旋极化的重要性。使用Wien2k包,半heusler VSnX (X?=?对铂、钯合金进行了研究。预测这些结构在磁相中最稳定。此外,地层能量和力学参数验证了稳定性条件。结合性质由Pugh比决定,脆性行为由泊松比决定。VSnPt和VSnPd合金具有间接带隙(Spin-dn)的半金属性质。两种合金的自旋极化是通过DOS和磁矩的整数值来证明的。通过显示可见光和紫外线吸收的几个光学参数来评估光学属性。半金属响应和光学特性表明VSnX (X?=?Pt, Pd)在自旋电子和光电子技术中表现出有趣的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Half-metallicity, magnetic and optical attributes of mechanically stable half-Heusler VSnX (X = Pt, Pd) alloys for spintronics: a DFT study

Recent developments in spintronics reveal the significance of half-Heusler alloys due to their high spin polarization. Using Wien2k package, half-Heusler VSnX (X?=?Pt, Pd) alloys have been investigated. The structures are predicted to have most stable in magnetic phases. Furthermore, formation energies and mechanical parameters justify the stability conditions. The bonding nature is determined through Pugh ratio, while the brittle behavior is achieved through Poisson ratio. A half metallic character with indirect band gap (Spin-dn) is achieved for VSnPt and VSnPd alloys. The spin polarization in both alloys is demonstrated through DOS and integer values of magnetic moments. The optical attributes are evaluated through several optical parameters showing absorption in visible and UV regions. The half-metallic response and the optical characteristics reveal that VSnX (X?=?Pt, Pd) exhibit interesting features for spintronic and optoelectronic technologies.

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来源期刊
The European Physical Journal Plus
The European Physical Journal Plus PHYSICS, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
8.80%
发文量
1150
审稿时长
4-8 weeks
期刊介绍: The aims of this peer-reviewed online journal are to distribute and archive all relevant material required to document, assess, validate and reconstruct in detail the body of knowledge in the physical and related sciences. The scope of EPJ Plus encompasses a broad landscape of fields and disciplines in the physical and related sciences - such as covered by the topical EPJ journals and with the explicit addition of geophysics, astrophysics, general relativity and cosmology, mathematical and quantum physics, classical and fluid mechanics, accelerator and medical physics, as well as physics techniques applied to any other topics, including energy, environment and cultural heritage.
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