Journal
ADVANCED THEORY AND SIMULATIONS
Volume 4, Issue 1, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adts.202000187
Keywords
electromagnetics; metamaterials; metasurfaces; microwaves; pulse width; waveform
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Funding
- Japan Science and Technology Agency (JST) under Precursory Research for Embryonic Science and Technology (PRESTO) [JPMJPR193A]
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Linear metasurfaces have been shown to exhibit waveform-selective responses, while nonlinear metasurfaces offer more flexibility in addressing electromagnetic challenges involving waves at the same frequency. The waveform-selective responses in linear structures are derived from dispersion behaviors, referred to as pseudo-waveform-selective metasurfaces.
In recent years, metasurfaces composed of lumped circuit components, including nonlinear Schottky diodes, have been reported to be capable of sensing particular electromagnetic waves even at the same frequency depending on their waveforms, or more specifically, their pulse widths. In this study, analogous waveform-selective phenomena using only linear circuits and linear media are reported. Although such linear metasurfaces are analytically and numerically demonstrated to exhibit variable absorption performance, it cannot strictly be categorized as waveform-selective absorption. It is due to the fact that the waveform-selective responses in the linear metasurfaces originated from the dispersion behaviors of the structures rather than the frequency conversion seen in nonlinear waveform-selective metasurfaces. These linear structures are thus referred to as pseudo-waveform-selective metasurfaces. Additionally, it is shown that the pseudo-waveform-selective metasurfaces have limited performance unless nonlinearity is introduced. These results and findings confirm the advantages of nonlinear waveform-selective metasurfaces, which can be exploited to provide an additional degree of freedom to address existing electromagnetic problems/challenges involving even waves at the same frequency.
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