Theoretical studies of structural, elastic, electronic and lattice dynamic properties of AlxYyB1−x−yN quaternary alloys

Theoretical studies of structural, elastic, electronic and lattice dynamic properties of AlxYyB1−x−yN quaternary alloys

A theoretical study on the structural, elastic, electronic and lattice dynamic properties of AlxYyB1−x−yN quaternary alloys in zinc-blend phase has been carried out with first-principles methods. Information on the lattice parameter, the lattice matching to available substrates and energy band-gaps...

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Bibliographic Details
Published in:Physica. B, Condensed matter Vol. 406; no. 13; pp. 2521 - 2527
Main Authors: Ghebouli, B., Ghebouli, M.A., Fatmi, M.
Format: Journal Article
Language:English
Published: Kidlington Elsevier B.V 01-07-2011
Elsevier
Subjects:
Condensed matter: structure, mechanical and thermal properties
Elasticity, elastic constants
Electronic structure
Exact sciences and technology
Lattice dynamics
Lattice matched and mismatched alloys
Mechanical and acoustical properties of condensed matter
Mechanical properties of solids
Optical properties
Phonon states and bands, normal modes, and phonon dispersion
Phonons and vibrations in crystal lattices
Physics
Pseudo-potential calculations
Pseudo-potential calculations
Electronic structure
Optical properties
Lattice matched and mismatched alloys
Elastic modulus
Aluminium Yttrium Borides nitrides Mixed
Refractive index
Lattice parameters
Phonon dispersion
Phonon mode
Density functional method
Generalized gradient approximation
Chemical composition
Permittivity
Bulk modulus
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Summary:A theoretical study on the structural, elastic, electronic and lattice dynamic properties of AlxYyB1−x−yN quaternary alloys in zinc-blend phase has been carried out with first-principles methods. Information on the lattice parameter, the lattice matching to available substrates and energy band-gaps is a prerequisite for many practical applications. The dependence of the lattice parameter a, bulk modulus B, elastic constants C11, C12 and C44, band-gaps, optical phonon frequencies (ωTO and ωLO), the static and high-frequency dielectric coefficients ε (0) and ε (∞) and the dynamic effective charge Z⁎ were analyzed for y=0, 0.121, 0.241, 0.362 and 0.483. A significant deviation of the bulk modulus from linear concentration dependence was observed. A set of isotropic elastic parameters and related properties, namely bulk and shear moduli, Young's modulus, Poisson's ratio are numerically estimated in the frame work of the Voigt–Reuss–Hill approximation. The resistance to changes in bond length and lateral expansion in AlxYyB1−x−yN increase with increasing y concentration. We observe that at y concentration about 0.035 and 0.063, AlxYyB1−x−yN changes from brittle to ductile and Γ–X indirect fundamental gap becomes Γ–Γ direct fundamental gap. There is good agreement between our results and the available experimental data for the binary compound AlN, which is a support for those of the quaternary alloys that we report for the first time.
ISSN:0921-4526
1873-2135
DOI:10.1016/j.physb.2011.03.047