YYÜ GCRIS Basic veritabanının içerik oluşturulması ve kurulumu Research Ecosystems (https://www.researchecosystems.com) tarafından devam etmektedir. Bu süreçte gördüğünüz verilerde eksikler olabilir.

Browsing by Author "Guemou, M."

Filter results by typing the first few letters
Now showing 1 - 2 of 2
  • Thumbnail Image
    Article
    Ab Initio Investigation of the Structural, Electronic and Optical Properties of Cubic Gaas1-X P X Ternary Alloys Under Hydrostatic Pressure
    (Springer, 2015) Moussa, R.; Abdiche, A.; Abbar, B.; Guemou, M.; Riane, R.; Murtaza, G.; Soyalp, F.
    The structural, electronic and optical properties of the GaAs1-x P (x) ternary alloys together with their binary GaP and GaAs compounds were investigated in the zinc-blende (ZB) phase using the density functional theory. The lattice constant of the GaAs compound decreases while its bulk modulus increases when the doping concentration of the P dopant is increased. In addition, both parameters (lattice constant and bulk modulus) show small deviations from the linear concentration dependence. The energy band gap of the GaAs compound is of the direct nature, which increases with the increase in the P dopant concentration, whereas at higher P dopant concentration, the band gap shifts from direct to indirect character. On the other hand, the hydrostatic pressure has a significant effect on the band structure of the investigated compounds where the binary GaAs compound changes from a direct band gap semiconductor to an indirect band gap semiconductor at P a parts per thousand yen 5 GPa. Furthermore, the pressure-dependence of the optical properties of the GaAs, GaP and GaAs0.75P0.25 alloy were also investigated, where the calculated zero frequency refractive index and the dielectric function are also compared with the experimental results as well as with different empirical models.
  • Thumbnail Image
    Article
    Structural, Electronic, Optical and Thermodynamic Properties of the Cubic Quadratic Quaternary Alloys Gaxin1-Xasyn1 Insight From Dft Computations
    (Elsevier, 2021) Abdiche, A.; Oualdine, A.; Guemou, M.; Khenata, R.; Soyalp, F.; Ahmed, R.; Bin-Omran, S.
    In this study, we present our predicted results related to the structural, electronic, and optical properties of Ga(x)In(1-x)AsyN(1-y) quaternary alloys while assessing the associated zinc blende binary and ternary compounds. All calculations are performed by employing the full-potential linearized augmented plane wave plus local orbital method (FP-L(APW + lo)) based on density functional theory (DFT) and implemented in the WIEN2k computational package for crystalline materials. The exchange-correlation energy and potential functional are treated by the local density approximation (LDA) parameterized by Perdew-Wang (PW) and the PBE functional for solids, i.e., PBEsol-GGA, for the calculations of structural parameters, while the Tran-Blaha Becke-Johnson (TB-mBJ) potential approximation combined with PBE-GGA is applied for band structure calculation. The composition-dependent results of the lattice parameters, bulk modulus, and bandgap energy are also studied by performing a quadratic fit, where nonlinear variations in the results are observed. One can note that the bandgap energies are direct for all considered compositions (x, y). Moreover, the dielectric behavior, refractive index, and loss energy are predicted in the context of the optical properties, and the variation in the composition slightly affects the optical stability of the studied alloys. We have also carried out predictions of the thermodynamic properties such as the lattice parameter a(P, T), the Debye temperature theta(D), the heat capacity C-v, and the entropy S using the GIBBS program. To the best of our knowledge, this work represents the first theoretical study on these quaternary alloys and awaits experimental confirmation.