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Temperature Dependent Elastic and Ultrasonic Properties of Rare-earth Europium Monopnictides EuX(X=N, P, As, Sb)
The temperature dependent mechanical, thermo-physical and nonlinear ultrasonic properties of europium monopnictides EuX (X: N, P, As and Sb) were studied in this exploration. The 2nd and 3rd order elastic constants (SOECs and TOECs) of EuX were computed with the help of Coulomb and Born-Mayer potential applying two fundamental indicators i.e., the nearest neighbour distance and the hardness parameter in the temperature span 100-300K. Further the SOECs are applied to enumerate the mechanical variables such as elastic moduli, Zener anisotropic ratio, Poisson’s ratio and Pugh’s index using Voigt-Reuss-Hill (VRH) approach at T=300K. The results derived from elastic and mechanical properties confirm the mechanical stability and brittle nature of EuX. The acoustical velocities have been enumerated using the SOECs and density of EuX along , and directions at T=300K. All above physical parameters have been utilized to compute the direction dependent Grüneisen parameter and Debye characteristic temperature of EuX at T=300K. The achieved values of this exploration are discussed and equated with materials of similar characteristics.
Keywords
Europium monopnictides; Elastic constants; Mechanical constants; Ultrasonic grüneisen parameter
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