Characterizing the in-phase reflection bandwidth theoretical limit of artificial magnetic conductors with transmission line model

Abstract

We validate through simulation and experiment that artificial magnetic conductors (AMC's) can be well characterized by a transmission line model. The theoretical bandwidth limit of the in-phase reflection can be expressed in terms of the effective RLC parameters from the surface patch and the properties of the substrate. It is found that the existence of effective inductive components will reduce the in-phase reflection bandwidth of the AMC. Furthermore, we propose design strategies to optimize AMC structures with an in-phase reflection bandwidth closer to the theoretical limit.