This paper shows that it is possible to exploit the modulated metasurface concept to control the unwanted coupling between antennas that are installed on the same satellite. The metasurface is combined with a Multi-Layer thermal Insulation blanket to reduce its specular reflection by spreading the energy incoherently in the surrounding space. In the design, sub-wavelength radiating elements printed on thin substrate have been used to make the metasurface response azimuthally independent, and to keep the weight of blanket down. The comparison between simulations and measurements confirms the validity of the idea.
Enhanced RF Behavior Multi-Layer Thermal Insulation / Mazzinghi, A.; Sabbadini, M.; Freni, A.. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - STAMPA. - 8:(2018), pp. 1-10. [10.1038/s41598-017-18337-3]
Enhanced RF Behavior Multi-Layer Thermal Insulation
A. Mazzinghi;A. Freni
2018
Abstract
This paper shows that it is possible to exploit the modulated metasurface concept to control the unwanted coupling between antennas that are installed on the same satellite. The metasurface is combined with a Multi-Layer thermal Insulation blanket to reduce its specular reflection by spreading the energy incoherently in the surrounding space. In the design, sub-wavelength radiating elements printed on thin substrate have been used to make the metasurface response azimuthally independent, and to keep the weight of blanket down. The comparison between simulations and measurements confirms the validity of the idea.
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