电场和双轴应变对块状和单层氮化镓的结构、电学、磁学和光学特性的影响

IF 1.6 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Indian Journal of Physics Pub Date : 2024-07-25 DOI:10.1007/s12648-024-03312-2
Jabbar M. Khalaf Al-zyadi, Mustafa M. Jaafar
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引用次数: 0

摘要

通过在密度泛函理论中使用 APW + lo 方法,本研究的目的是探究氮化镓的块状和单层形式之间的差异。APW + lo 方法在整个全电位处理过程中以自洽的方式考虑了两个电子(核心电子和价电子)。利用广义梯度近似和结构模型对结构的电子、磁性和光学特性进行了分析。在化合物的块体形式中可以看到半金属性,在自旋上升通道中的能隙为 2.23 eV,平衡晶格常数为 8.23 Å。为了确定证明材料半金属特性的能带结构和状态密度,必须对材料的电子特性进行研究。根据斯莱特-保龄定律(Zt-4),每个单元格的总磁矩等于 2 µB。此外,还研究了电场和双轴应变对单层 AgN 的影响,以计算电子、磁性和随频率变化的光学特性,如介电常数、反射率、吸收率、光导率和能量损失。研究结果表明,氮化镓单层有望应用于自旋电子学。
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The effects of electric fields and biaxial strain on the structural, electrical, magnetical, and optical properties of bulk and monolayer AgN

By using the APW + lo approach within the context of density functional theory, the purpose of this research is to investigate the differences between the bulk and monolayer forms of AgN. An APW + lo approach, takes into account both electrons (core and valence) in a self-consistent manner throughout the process of full-potential treatment. A generalized gradient approximation and a structural model were used to conduct the analyses on the structural electronic, magnetic, and optical characteristics. Half-metallicity could be seen in the bulk form of the compound with an energy gap of 2.23 eV in the spin-up channel and an equilibrium lattice constant of 8.23 Å. In addition, the half-metallic behavior was maintained even after the crossover to the monolayer, which had an energy gap of 1.90 eV. In order to determine the band structures and the density of states that demonstrate the half-metallic character of the material, it is important to carry out an examination of the material's electronic properties. Rendering to the Slater-Pauling statute (Zt-4), the total magnetic moment equals 2 µB for each unit cell. The effect of the electric field and biaxial strain on a monolayer of AgN was also studied to calculate electronic, magnetic, and frequency-dependent optical properties such as, dielectric functions, reflectivity, absorption, optical conductivity, and energy loss. The findings highlighted that the AgN's monolayer is promise for spintronics applications.

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来源期刊
Indian Journal of Physics
Indian Journal of Physics 物理-物理:综合
CiteScore
3.40
自引率
10.00%
发文量
275
审稿时长
3-8 weeks
期刊介绍: Indian Journal of Physics is a monthly research journal in English published by the Indian Association for the Cultivation of Sciences in collaboration with the Indian Physical Society. The journal publishes refereed papers covering current research in Physics in the following category: Astrophysics, Atmospheric and Space physics; Atomic & Molecular Physics; Biophysics; Condensed Matter & Materials Physics; General & Interdisciplinary Physics; Nonlinear dynamics & Complex Systems; Nuclear Physics; Optics and Spectroscopy; Particle Physics; Plasma Physics; Relativity & Cosmology; Statistical Physics.
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