Lattice dynamics, mechanical stability and electronic structure of Fe-based Heusler semiconductors

Shakeel Ahmad Khandy; Ishtihadah Islam; Dinesh C. Gupta; Rabah Khenata; A. Laref

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Lattice dynamics, mechanical stability and electronic structure of Fe-based Heusler semiconductors

机译：铁基赫斯勒半导体的晶格动力学，机械稳定性和电子结构

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The structural and mechanical stability of Fe2TaAl and Fe2TaGa alloys along with the electronic properties are explored with the help of density functional theory. On applying different approximations, the enhancement of semiconducting gap follows the trend as GGA??mBJ??GGA?+?U. The maximum forbidden gaps observed by GGA?+?U method are Eg?=?1.80?eV for Fe2TaAl and 1.30?eV for Fe2TaGa. The elastic parameters are simulated to determine the strength and ductile nature of these materials. The phonon calculations determine the dynamical stability of all these materials because of the absence of any negative frequencies. Basic understandings of structural, elastic, mechanical and phonon properties of these alloys are studied first time in this report.

机译：借助密度泛函理论研究了Fe2TaAl和Fe2TaGa合金的结构和机械稳定性以及电子性能。在采用不同的近似值时，半导体间隙的增加遵循GGAα＜＜mBJα＜βGGAα+αU的趋势。通过GGAα+ΔU法观察到的最大禁带为Fe2TaAl为Egα＝≤1.80ΔeV，Fe2TaGa为1.30ΔeV。模拟弹性参数以确定这些材料的强度和延性。声子的计算决定了所有这些材料的动态稳定性，因为它们不存在任何负频率。本报告首次研究了对这些合金的结构，弹性，机械和声子性能的基本了解。

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《Scientific reports.》 |2019年第1期|共8页
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Shakeel Ahmad Khandy; Ishtihadah Islam; Dinesh C. Gupta; Rabah Khenata; A. Laref;
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1. Lattice dynamics, mechanical stability and electronic structure of Fe-based Heusler semiconductors [J] . Shakeel Ahmad Khandy, Ishtihadah Islam, Dinesh C. Gupta, Scientific reports. . 2019,第1期

机译：铁基赫斯勒半导体的晶格动力学，机械稳定性和电子结构
2. Investigation of Structural and Elastic Stability, Electronic, Magnetic, Thermoelectric, Lattice-Dynamical and Thermodynamical Properties of Spin Gapless Semiconducting Heusler Alloy Zr2MnIn Using DFT Approach [J] . Patel Pratik D., Shinde Satyam, Gupta Sanjay D., Journal of Electronic Materials . 2019,第3期

机译：使用DFT方法调查旋转无光音半导体Heusler合金Zr2mnin的旋转无光音半导体Heusler合金Zr2mnin的结构和弹性稳定性，电子，磁，热电，晶格动力学和热力学性能
3. First principles prediction of structural, mechanical and thermodynamic stability in new 18-valence electron XVZ (X = Fe, Ni, Z = Ga, As) half-Heusler semiconductors [J] . Osafile O. E., Azi J. O. Semiconductor science and technology . 2020,第10期

机译：新的18价电子XVZ（X = Fe，Ni，Z = Ga，As）半起式半导体中的第一个原理预测结构，机械和热力稳定性（x = Fe，Ni，Z = Ga）
4. Electronic structure and spin-injection of Co-based Heusler alloy/ semiconductor junctions [C] . Hiroyoshi ltoh, Syuta Honda, Jun-ichiro lnoue Technology evolution for silicon nano-electronics . 2010

机译：Co基Heusler合金/半导体结的电子结构和自旋注入
5. Quantum Nonlinear Dynamics in Graphene, Optomechanical, and Semiconductor Superlattice Systems. [D] . Ying, Lei. 2016

机译：石墨烯，光机械和半导体超晶格系统中的量子非线性动力学。
6. Lattice dynamics mechanical stability and electronic structure of Fe-based Heusler semiconductors [O] . Shakeel Ahmad Khandy, Ishtihadah Islam, Dinesh C. Gupta, -1

机译：铁基赫斯勒半导体的晶格动力学机械稳定性和电子结构
7. Lattice dynamics, mechanical stability and electronic structure of Fe-based Heusler semiconductors [O] . Shakeel Ahmad Khandy, Ishtihadah Islam, Dinesh C. Gupta, 2019

机译：Fe基HEUSLER半导体的晶格动力学，机械稳定性和电子结构

Lattice dynamics, mechanical stability and electronic structure of Fe-based Heusler semiconductors

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