We propose a low observable satellite covered by layered materials. The dielectric properties of the composite materials are analyzed using the coaxial air-line method. Our solution could result in cost-effective applications for satellite stealthness. The particle swarm optimization algorithm is used to design and optimize layered absorbers. The obtained reflection is below −20 dB in many frequency subranges, also under an oblique incident condition, within the band 2–18 GHz. The optimized layered absorbers are used as a cloack for cube satellites. In particular, we investigated a very simple geometry by using a finite element commercial software in the band from 2 to 18. Finally, the transmission through an aperture on the satellite surface is analyzed. It is highlighted that the optimized layered absorbers attenuate the electric field within the satellite, improving its immunity against electromagnetic interferences.

Reduction of satellite electromagnetic scattering by carbon nanostructured multilayers / Davide, Micheli; Roberto, Pastore; Gradoni, Gabriele; MARIANI PRIMIANI, Valter; Moglie, Franco; Mario, Marchetti. - In: ACTA ASTRONAUTICA. - ISSN 0094-5765. - STAMPA. - 88:(2013), pp. 71-83. [10.1016/j.actaastro.2013.03.003]

Reduction of satellite electromagnetic scattering by carbon nanostructured multilayers

GRADONI, GABRIELE;MARIANI PRIMIANI, Valter;MOGLIE, FRANCO;
2013-01-01

Abstract

We propose a low observable satellite covered by layered materials. The dielectric properties of the composite materials are analyzed using the coaxial air-line method. Our solution could result in cost-effective applications for satellite stealthness. The particle swarm optimization algorithm is used to design and optimize layered absorbers. The obtained reflection is below −20 dB in many frequency subranges, also under an oblique incident condition, within the band 2–18 GHz. The optimized layered absorbers are used as a cloack for cube satellites. In particular, we investigated a very simple geometry by using a finite element commercial software in the band from 2 to 18. Finally, the transmission through an aperture on the satellite surface is analyzed. It is highlighted that the optimized layered absorbers attenuate the electric field within the satellite, improving its immunity against electromagnetic interferences.
2013
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/89861
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