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Investigation on transport properties and anomalously heat-carrying optical phonons in KXY (X = Ca, Mg; Y = Sb, Bi)

Aixian She, Yinchang Zhao, Jun Ni, Sheng Meng, Zhenhong Dai

2023International Journal of Heat and Mass Transfer18 citationsDOIOpen Access PDF

Abstract

In this work, we systematically studied the thermal transport properties of ternary zintl compound KXY using self-consistent phonon theory combined with compressive sensing technology and the Boltzmann transport equation . The effects of quartic anharmonic induced phonon renormalization and 4 - phonon scattering on the results are fully considered. Vibrational mode visualization reveals that the anomalous contribution of optical phonons to lattice thermal conductivity in KCaBi originates from high-speed out-of-phase vibrations of Ca atoms. We analyzed the microscopic mechanism of heat transport from the perspective of atomic bonding combined with the results of group velocity , scattering rate, Gr u ¨ neisen parameter, mean free path , etc. In addition, we verified and predicted the mechanical properties in KXY by calculation.

Topics & Concepts

PhononAnharmonicityThermal conductivityMaterials scienceCondensed matter physicsBoltzmann equationMean free pathTernary operationScatteringScattering rateWork (physics)ThermodynamicsPhysicsOpticsProgramming languageComposite materialSuperconductivityComputer scienceAdvanced Thermoelectric Materials and DevicesThermal properties of materialsTopological Materials and Phenomena
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