Scattering theory for the scattering of phonons by particulate scatterers is developed in this paper. Recently the author introduced the generalized equation of phonon radiative transport (GEPRT) in particulate media, which included a phase function to account for the anisotropic scattering of phonons by particulate scatterer. Solution of the GEPRT showed that scattering cross section is different from the thermal transport cross-section. In this paper formulations for the scattering and transport cross section for horizontally shear (SH) wave phonon or transverse wave phonon without mode conversion is developed. The development of the theory of scattering and the transport cross section is exactly analogous to the Mie scattering theory for photon transport in particulate media. Results show that transport cross section is very different from the scattering cross section. The theory of phonon scattering developed in this paper will be useful for the predictive modeling of thermal conductivity of practical systems, such as nanocomposites, nano-micro-particle-laden systems, etc.
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Mie Scattering Theory for Phonon Transport in Particulate Media
Ravi S. Prasher
Ravi S. Prasher
Assembly Technology Development, CH5-157, Intel Corporation, 5000 W. Chandler Blvd., Chandler, AZ 85226-3699
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Ravi S. Prasher
Assembly Technology Development, CH5-157, Intel Corporation, 5000 W. Chandler Blvd., Chandler, AZ 85226-3699
Contributed by the Heat Transfer Division for publication in the JOURNAL OF HEAT TRANSFER. Manuscript received by the Heat Transfer Division December 17, 2003; revision received July 8, 2004. Associate Editor: C. P. Grigoropoulos.
J. Heat Transfer. Oct 2004, 126(5): 793-804 (12 pages)
Published Online: November 16, 2004
Article history
Received:
December 17, 2003
Revised:
July 8, 2004
Online:
November 16, 2004
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A correction has been published:
Errata: “Mie Scattering Theory for Phonon Transport” [ASME J. Heat Transfer, 2004, 126, pp. 793–804]
Citation
Prasher, R. S. (November 16, 2004). "Mie Scattering Theory for Phonon Transport in Particulate Media ." ASME. J. Heat Transfer. October 2004; 126(5): 793–804. https://doi.org/10.1115/1.1795243
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