Nanoscale and microscale heat transfer
Rodolphe VAILLONa*, Clivia M. SOTOMAYOR TORRESb and P.-Olivier CHAPUISa
aUniversité de Lyon, CNRS, INSA-Lyon, UCBL, CETHIL, UMR5008, F-69621, Villeurbanne, France
bCatalan Institute of Nanotechnology (ICN2), Campus UAB, 08193 Bellaterra (Barcelona), Spain
*corresponding author: rodolphe.vaillon@insa-lyon.fr
Keywords: computational and experimental sciences, phonon heat transport, near-field thermal radiation, energy-harvesting nanodevices.
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References
[1] R. B. Wilson, J.P. Feser, G. Hohensee, D.G. Cahill, "Analysis of two-channel heat flow in pump-probe studies of non-equilibrium thermal transport", Phys. Rev. B 88, 144305, 2013.
[2] B. Gotsmann, M.A. Lantz, "Quantized thermal transport across contacts of rough surfaces", Nature Materials 12, 59-65, 2013.
[3] S. Liu, P. Hänggi, N. Li, J. Ren, B. Li, "Anomalous heat diffusion", Phys. Rev. Lett. 112, 040601, 2014.
[4] L. Zhu, C. Otey, S. Fan, "Ultrahigh contrast and large-bandwidth thermal rectification in near-field electromagnetic thermal transfer between nanoparticles", Phys. Rev. B 88, 184301, 2013.
[5] J. Cuffe, E. Chavez, P.O. Chapuis, E. H. El Boudouti, F. Alzina, Y. Pennec, B. Djafari-Rouhani, A. Shchepetov, M. Prunnila, J. Ahopelto, C. M. Sotomayor Torres, "Dispersion of Confined Acoustic Phonons in Ultra-Thin Si Membranes", in: Proceedings of Eurotherm 91 – Microscale Heat Transfer III, Poitiers - France, Aug. 29-31, 2011.
[6] L.D. Landau, E.M. Lifshitz, The Classical Theory of Fields, 4th edition, Butterworth-Heinemann, 1975.
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