On thermal vacuum radiation of nanoparticles and their ensembles

On thermal vacuum radiation of nanoparticles and their ensembles

Radiant emittance of dimers and ensembles of particles consisting of gold, graphite and silica glass nanoparticles in vacuum is studied numerically based on the fluctuation-electromagnetic theory. The presence of neighboring particles of the same temperature causes an oscillating character of radian...

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Veröffentlicht in:Physica. B, Condensed matter Condensed matter, 2014-01, Vol.433, p.67-71
Hauptverfasser: Dedkov, G.V., Kyasov, A.A.
Format: Artikel
Sprache:eng
Schlagworte:
Black-body radiation
Condensed matter
Emittance
Equivalence
Fluctuation
Fluctuation-electromagnetic interactions
Graphite
Nanoparticles
Radiative heat transfer
Silica glass
Surface area
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Zusammenfassung:Radiant emittance of dimers and ensembles of particles consisting of gold, graphite and silica glass nanoparticles in vacuum is studied numerically based on the fluctuation-electromagnetic theory. The presence of neighboring particles of the same temperature causes an oscillating character of radiant emittance (per one particle) depending on the particle size, interparticle distance and temperature. We conclude that an ensemble of particles could be a much more intense source of thermal radiation than an equivalent solid body with the same outer surface area. Alternatively, when the neighboring particles create a significant “screening effect” (silica), an ensemble of particles could be a very good heat protector.
ISSN:0921-4526
1873-2135
DOI:10.1016/j.physb.2013.10.012