Title: Structural, elastic, electronic and optical properties of the half-Heusler ScPtSb and YPtSb compounds under pressure
Author(s):

	M. Radjai (Laboratory of Physics of Experimental Techniques and Their Applications (LPTEAM), University of Medea, Algeria),
	A. Bouhemadou (Laboratory for Developing New Materials and their Characterization, University of Ferhat Abbas Setif 1, Setif 19000, Algeria),
	D. Maouche (Laboratory for Developing New Materials and their Characterization, University of Ferhat Abbas Setif 1, Setif 19000, Algeria)

First-principles calculations using the plane-wave pseudopotential method within the generalized gradient approximation method were performed to study the pressure dependence of the structural, elastic, electronic and optical properties for the half-Heusler compounds ScPtSb and YPtSb in a cubic MgAgAs-type structure. The calculations were performed with the inclusion of spin-orbit coupling. The calculated equilibrium lattice parameters are in good agreement with the available experimental and theoretical values. The crystal rigidity and mechanical stability were discussed using the elastic constants and related parameters, namely bulk modulus, shear modulus, Debye temperature, Poisson's coefficient, Young's modulus and isotropic sound velocities. The calculated electronic band structures show that ScPtSb has an indirect gap of Γ-X type, whereas YPtSb has a direct band gap of Γ-Γ type. Furthermore, the effect of pressure on the optical properties, namely the dielectric function, absorption spectrum, refractive index, extinction coefficient, reflectivity and energy-loss spectrum is investigated for both compounds ScPtSb and YPtSb.

Key words: ScPtSb, YPtSb, PP-PW method, optical properties, electronic properties, elastic moduli, ab-initio calculations

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