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Compact models for multidimensional quasiballistic thermal transport

Published 22 Aug 2016 in cond-mat.mes-hall | (1608.06120v1)

Abstract: The Boltzmann transport equation (BTE) has proven indispensable in elucidating quasiballistic heat dynamics. Experimental observations of nondiffusive thermal transients, however, are interpreted almost exclusively through purely diffusive formalisms that merely extract "effective" Fourier conductivities. Here, we build upon stochastic transport theory to provide a characterisation framework that blends the rich physics contained within BTE solutions with the convenience of conventional analyses. The multidimensional phonon dynamics are described in terms of an isotropic Poissonian flight process with rigorous Fourier-Laplace single pulse response $P(\vec{\xi},s) = 1/[s + \psi(| \vec{\xi} |)]$. The spatial propagator $\psi(|\vec{\xi}|)$, unlike commonly reconstructed mean free path spectra $\kappa_{\Sigma}(\Lambda)$, serves as a genuine thermal blueprint of the medium that can be identified in compact form directly from raw measurement signals. Practical illustrations for transient thermal grating (TTG) and time domain thermoreflectance (TDTR) experiments on respectively GaAs and InGaAs are provided.

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