The broadside power radiation enhancement has been tested for the case of a magnetic dipole in presence of an MNZ metamaterial substrate. In order to assess the theoretical estimations, a slot antenna on a ground plane has been fabricated and an AMC composed of 1 layer square spiral resonators has been used as an MNZ metamaterial slab. The radiation patterns have been measured in the anechoic chamber, achieving a gain in directivity of more than 1 dB. However, it should be taken into account that the thickness of the fabricated metamaterial slab (6 mm) is much smaller than the theoretical optimum thickness (hundreds of mm). The directivity of the antenna might be improved when increasing the number of layers of the metamaterial slab; in fact, in such a case, the leaky waves responsible of directive radiation are expected to be more significantly excited giving rise to the sought broadside power enhancement.
Broadside radiation enhancement using a spiral resonator MNZ metamaterial substrate / P. J., Ferrer; J., Romeu; J. A., GONZÁLEZ ARBESÚ; J., Parrón; F., Capolino; F., Bilotti; L., Vegni; Lovat, Giampiero; Burghignoli, Paolo. - ELETTRONICO. - (2008), pp. 1468-1471. (Intervento presentato al convegno 2008 IEEE AP-S International Symposium on Antennas and Propagation tenutosi a San Diego (CA) nel 5-12 July 2008) [10.1109/APS.2008.4619285].
Broadside radiation enhancement using a spiral resonator MNZ metamaterial substrate
LOVAT, GIAMPIERO;BURGHIGNOLI, Paolo
2008
Abstract
The broadside power radiation enhancement has been tested for the case of a magnetic dipole in presence of an MNZ metamaterial substrate. In order to assess the theoretical estimations, a slot antenna on a ground plane has been fabricated and an AMC composed of 1 layer square spiral resonators has been used as an MNZ metamaterial slab. The radiation patterns have been measured in the anechoic chamber, achieving a gain in directivity of more than 1 dB. However, it should be taken into account that the thickness of the fabricated metamaterial slab (6 mm) is much smaller than the theoretical optimum thickness (hundreds of mm). The directivity of the antenna might be improved when increasing the number of layers of the metamaterial slab; in fact, in such a case, the leaky waves responsible of directive radiation are expected to be more significantly excited giving rise to the sought broadside power enhancement.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
