Toward compact millimeter-wave diode in thin stacked-hole array assisted by a dielectric grating

M. Beruete; A. E. Serebryannikov; V. Torres; Miguel Navarro-Cia; M. Sorolla

doi:10.1063/1.3648106

Toward compact millimeter-wave diode in thin stacked-hole array assisted by a dielectric grating

M. Beruete^*, A. E. Serebryannikov, V. Torres, Miguel Navarro-Cia, M. Sorolla

^*Corresponding author for this work

Engineering and Physical Sciences

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Unidirectional transmission in thin stacked hole arrays (SHAs), whose spatial inversion symmetry is broken by adding a dielectric grating at one of the interfaces, is theoretically predicted and experimentally validated in the millimeter-wave regime. It appears at a fixed nonzero angle of incidence due to hybridization of SHA resonances with diffraction effects. In contrast to the earlier suggested structures with the diffraction relevant unidirectional transmission mechanism, the nonsymmetric diode-like structure founded on the intrinsically subwavelength SHA, which supports left-handed propagation, is less than one wavelength thick.

Original language	English
Article number	154101
Journal	Applied Physics Letters
Volume	99
Issue number	15
DOIs	https://doi.org/10.1063/1.3648106
Publication status	Published - 10 Oct 2011

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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abstract = "Unidirectional transmission in thin stacked hole arrays (SHAs), whose spatial inversion symmetry is broken by adding a dielectric grating at one of the interfaces, is theoretically predicted and experimentally validated in the millimeter-wave regime. It appears at a fixed nonzero angle of incidence due to hybridization of SHA resonances with diffraction effects. In contrast to the earlier suggested structures with the diffraction relevant unidirectional transmission mechanism, the nonsymmetric diode-like structure founded on the intrinsically subwavelength SHA, which supports left-handed propagation, is less than one wavelength thick.",

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AU - Beruete, M.

AU - Serebryannikov, A. E.

AU - Torres, V.

AU - Navarro-Cia, Miguel

AU - Sorolla, M.

PY - 2011/10/10

Y1 - 2011/10/10

N2 - Unidirectional transmission in thin stacked hole arrays (SHAs), whose spatial inversion symmetry is broken by adding a dielectric grating at one of the interfaces, is theoretically predicted and experimentally validated in the millimeter-wave regime. It appears at a fixed nonzero angle of incidence due to hybridization of SHA resonances with diffraction effects. In contrast to the earlier suggested structures with the diffraction relevant unidirectional transmission mechanism, the nonsymmetric diode-like structure founded on the intrinsically subwavelength SHA, which supports left-handed propagation, is less than one wavelength thick.

AB - Unidirectional transmission in thin stacked hole arrays (SHAs), whose spatial inversion symmetry is broken by adding a dielectric grating at one of the interfaces, is theoretically predicted and experimentally validated in the millimeter-wave regime. It appears at a fixed nonzero angle of incidence due to hybridization of SHA resonances with diffraction effects. In contrast to the earlier suggested structures with the diffraction relevant unidirectional transmission mechanism, the nonsymmetric diode-like structure founded on the intrinsically subwavelength SHA, which supports left-handed propagation, is less than one wavelength thick.

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Toward compact millimeter-wave diode in thin stacked-hole array assisted by a dielectric grating

Abstract

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