Heat flow in thin films via surface phonon-polaritons

Dye Zone A. Chen; Gang Chen

Journal ArticleOPEN ACCESS

Heat flow in thin films via surface phonon-polaritons

Frontiers in Heat and Mass Transfer (2010) 1(2)

DOI: 10.5098/hmt.v1.2.3005

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Abstract

We present a calculation of the thermally generated electromagnetic flux propagating along the in-plane direction of a polar, thin film. The approach is based on fluctuational electrodynamics and the fluctuation-dissipation theorem. We find that for silicon carbide films between 5 nm and 100 nm thick, the thinner films transport more in-plane flux due to the long propagation length of the anti-symmetric surface phonon-polariton mode. Comparison of results obtained from the fluctuation-dissipation approach and the kinetic theory approach shows favorable agreement.

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Chen, D. Z. A., & Chen, G. (2010). Heat flow in thin films via surface phonon-polaritons. Frontiers in Heat and Mass Transfer, 1(2). https://doi.org/10.5098/hmt.v1.2.3005

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Heat flow in thin films via surface phonon-polaritons

Abstract

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References Powered by Scopus

Nanoscale thermal transport

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Surface-polariton-like waves guided by thin, lossy metal films

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