Hydrostatic pressure effect on the structural parameters of GaSb semiconducting material: Ab-initio calculations

Journal of Physical & Chemical Research Pub Date : 2023-01-07 DOI:10.58452/jpcr.v1i2.24

Farouk Bengasmia, Ammar Bengasmia, Lotfi Boutahar, H. Rekab-Djabri, S. Daoud

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Abstract

Ab-initio calculations were performed to investigate the ground state and hydrostatic pressure effecton the structural properties of GaSb semiconducting material. The projected augmented wavepseudopotentials (PAW) approach in the framework of the density functional theory (DFT) asimplemented in the Quantum Espresso code was used. The exchange-correlation functional wasdescribed with the generalized gradient approximation (GGA). Utilizing the energy - volume (E-V)data, our values of the equilibrium lattice constant, the bulk modulus, and the pressure derivative ofthe bulk modulus of GaSb semiconductor obtained from the Birch–Murnaghan equation of statewere found 6.220 Å, 44.84 GPa and 4.22, respectively. Our obtained data agree well with theavailable experimental values and other theoretical data of the literature. In addition, the meltingpoint, the lattice thermal expansion coefficient and the microhardness of our material of interestwere also calculated and compared with the available experimental data of the literature.

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静水压力对GaSb半导体材料结构参数的影响:从头算

采用从头算方法研究了基态和静水压力对GaSb半导体材料结构性能的影响。采用密度泛函理论(DFT)框架下的投影增广波势(PAW)方法实现了量子浓缩代码。用广义梯度近似(GGA)描述交换相关泛函。利用能量-体积(E-V)数据，从Birch-Murnaghan状态方程得到GaSb半导体的平衡晶格常数、体积模量和体积模量的压力导数分别为6.220 Å、44.84 GPa和4.22。我们得到的数据与现有的实验值和其他文献的理论数据吻合得很好。此外，还计算了材料的熔点、晶格热膨胀系数和显微硬度，并与现有文献的实验数据进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Physical & Chemical Research

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