Abstract
Phonon bandgap typically has a significant effect on phonon–phonon scattering process. In this work, the effects of mass modified phonon bandgap in θ-phase TaN are systemically investigated by the means of first-principles calculations with linearized Boltzmann transport equation. Through detailed calculations, we find that phonon bandgap has a significant effect on three-phonon process while exhibits a much weaker effect on four-phonon process. The reason for the ultrahigh thermal conductivity of θ-phase TaN is the long lifetime of phonons including both three-phonon and four-phonon processes, which originates from the weak phonon anharmonicity and large phonon bandgap-induced small phonon–phonon scattering phase space. This work advances the understanding of phonon bandgap effects on phonon transport.
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