Microwave Bandpass Filter Based on Mie-Resonance Extraordinary Transmission
Abstract
Microwave bandpass filter structure has been designed and fabricated by filling the periodically metallic apertures with dielectric particles. The microwave cannot transmit through the metallic subwavelength apertures. By filling the metallic apertures with dielectric particles, a transmission passband with insertion loss 2 dB appears at the frequency of 10–12 GHz. Both simulated and experimental results show that the passband is induced by the Mie resonance of the dielectric particles. In addition, the passband frequency can be tuned by the size and the permittivity of the dielectric particles. This approach is suitable to fabricate the microwave bandpass filters.</div- Dataset
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- microwave Bandpass Filter
- frequency
- microwave bandpass filters
- Transmission Microwave bandpass filter structure
- dielectric particles
- aperture
- insertion loss 2 dB
- passband
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Last time updated on 12/02/2018
This paper was published in The Francis Crick Institute.
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