The electromagnetic effects of optically-transparent thin films filling a thick aperture in shielding metallic enclosures with internal dipole sources are investigated. The analysis is performed through an efficient Method-of-Moment procedure implemented in a numerical tool which is able of dealing with micro/nano thin films. The investigation is aimed at assessing the field distribution both inside and outside a metallic enclosure with an aperture loaded by glass with ITO/silver coatings. The numerical results show the best thin-film configuration as concerns the shielding effectiveness. Moreover, the effects inside the cavity produced by the aperture loading are also estimated and a preliminary investigation on the use of absorbing materials placed on the interior walls is carried out.
BEST PAPER SYMPOSIUM AWARD / Araneo, Rodolfo; Lovat, Giampiero; Celozzi, Salvatore; D'Amore, Marcello. - (2011).
BEST PAPER SYMPOSIUM AWARD
ARANEO, Rodolfo;LOVAT, GIAMPIERO;CELOZZI, Salvatore;D'AMORE, Marcello
2011
Abstract
The electromagnetic effects of optically-transparent thin films filling a thick aperture in shielding metallic enclosures with internal dipole sources are investigated. The analysis is performed through an efficient Method-of-Moment procedure implemented in a numerical tool which is able of dealing with micro/nano thin films. The investigation is aimed at assessing the field distribution both inside and outside a metallic enclosure with an aperture loaded by glass with ITO/silver coatings. The numerical results show the best thin-film configuration as concerns the shielding effectiveness. Moreover, the effects inside the cavity produced by the aperture loading are also estimated and a preliminary investigation on the use of absorbing materials placed on the interior walls is carried out.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
