Theoretical Analysis of Acoustic Attenuation and Nonlinearity in Barium Monochalcogenides in B2 Phase

RAJENDRA KUMAR SINGH; RISHI PAL SINGH; MANISH PRATAP SINGH; SUJEET KUMAR CHAURASIA

Theoretical Analysis of Acoustic Attenuation and Nonlinearity in Barium Monochalcogenides in B2 Phase

Authors: RAJENDRA KUMAR SINGH, RISHI PAL SINGH, MANISH PRATAP SINGH, SUJEET KUMAR CHAURASIA

Abstract: Temperature dependence of ultrasonic attenuation due to phonon-phonon interaction and thermo-elastic loss have been studied in (CsCl-type) barium monochalcogenides (BaX, X= S, Se, Te), in the temperature range 50-500 K; for longitudinal and shear modes of propagation along <100>, <110> and <111> directions. Second and third order elastic constants have been evaluated using electrostatic and Born repulsive potentials and taking interactions up to next nearest neighbours. Gruneisen parameters, nonlinearity constants, nonlinearity constants ratios and viscous drag due to screw and edge dislocations have also been evaluated for longitudinal and shear waves at 300 K. In the present investigation, it has been found that phonon-phonon interaction is the dominant cause for ultrasonic attenuation. The possible implications of the results have been discussed.

Keywords: Barium chalcogenides, Ultrasonic attenuation, Phonon-phonon interaction

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