posted on 2019-04-09, 00:00authored byJ. E. Pérez-Rodríguez, G. Pirruccio, R. Esquivel-Sirvent
We present a theoretical
calculation of the near -field radiative
heat transfer (NFRHT) around the percolation threshold of oxide layers
that forms on aluminum surfaces. As this layer grows the volume fraction
of Al decreases and that of Al2O3 increases.
During this process, the Al plasmon response degrades, and the surface
phonon modes of Al2O3 become active, thus increasing
the spectral radiative heat flux. This occurs when the content of
aluminum oxide on the surface approaches 67% in volume, which corresponds
to the percolation threshold according to the Bruggeman effective
medium theory. This oxidation fraction defines two regions: for volume
fractions below the percolation threshold, the total heat flux is
lower than that of unoxidized Al; otherwise, it is larger. Thus, oxidation
considerably affects both the spectral and total radiative heat transfer.