Abstract
Metamaterial have been emerged as one of the potential candidates for enhancing the performance of wireless power transfer (WPT) applications. Later, the high-Q value presented by cavity mode resonance of passive metamaterials has been proposed for sub-wave length field localization. In contrast to using passive metamaterials, in this study, the potential of active metamaterials are investigated to control the magneto-inductive wave propagation which can realize various tunable functions in WPT applications.
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