Ab initio theory of the lattice thermal conductivity in diamond

Ward, Andrew; Broido, David; Stewart, Derek A.; Deinzer, Gernot

doi:10.1103/physrevb.80.125203

articlePhysical Review BSep 16, 2009BRONZE OA

Ab initio theory of the lattice thermal conductivity in diamond

AWAndrew Ward DBDavid Broido DADerek A. Stewart GDGernot Deinzer

Boston College · Cornell University · +1 more institution

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Abstract

We present a first-principles theoretical approach to calculate the lattice thermal conductivity of diamond based on an exact solution of the Boltzmann transport equation. Density-functional perturbation theory is employed to generate the harmonic and third-order anharmonic interatomic force constants that are required as input. A central feature of this approach is that it provides accurate representations of the interatomic forces and at the same time introduced no adjustable parameters. The calculated lattice thermal conductivities for isotopically enriched and naturally occurring diamond are both in very good agreement with experimental data. The role of the scattering of heat-carrying acoustic phonons by…

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Topics & keywords

Topics

Keywords

Thermal conductivity
Anharmonicity
Diamond
Phonon
Condensed matter physics
Boltzmann equation
Interatomic potential
Ab initio

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Affordable and clean energy

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