We propose an analytical model to study the absorption of a graphene sheet in the microwave range when its sheet resistance is varied. We demonstrate that the maximum achievable for a suspended structure is 50% and it is independent of the frequency in the range of interest. Finally, we propose a microwave absorber based on a Salisbury screen configuration consisting of two opportunely doped graphene sheets separated by a quarter-wavelength dielectric lossless spacer. In particular, we show how it is possible to achieve near-perfect absorption over a wide frequency bandwidth and how this graphene-based absorber is less sensitive to the variation of the graphene sheet resistance. The realization of the microwave absorber with few-layer graphene leads to a fully transparent device in the visible-near infrared range.
Optically transparent graphene-based Salisbury screen microwave absorber / Grande, Marco; D'Orazio, Antonella; Bianco, Giuseppe Valerio; Bruno, Giovanni; Vincenti, Maria Antonietta; De Ceglia, Domenico; Scalora, Michael. - ELETTRONICO. - (2015). [10.1109/MMS.2015.7375386]
Optically transparent graphene-based Salisbury screen microwave absorber
Grande, Marco;D'Orazio, Antonella;Bruno, Giovanni;Vincenti, Maria Antonietta;De Ceglia, Domenico;
2015-01-01
Abstract
We propose an analytical model to study the absorption of a graphene sheet in the microwave range when its sheet resistance is varied. We demonstrate that the maximum achievable for a suspended structure is 50% and it is independent of the frequency in the range of interest. Finally, we propose a microwave absorber based on a Salisbury screen configuration consisting of two opportunely doped graphene sheets separated by a quarter-wavelength dielectric lossless spacer. In particular, we show how it is possible to achieve near-perfect absorption over a wide frequency bandwidth and how this graphene-based absorber is less sensitive to the variation of the graphene sheet resistance. The realization of the microwave absorber with few-layer graphene leads to a fully transparent device in the visible-near infrared range.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
