Resonant Transmission of Microwaves Through a Finite Length Subwavelength Metallic Slit

JR Suckling; AP Hibbins; JR Sambles; CR Lawrence

doi:10.1088/1367-2630/7/1/250

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Journal article

Resonant Transmission of Microwaves Through a Finite Length Subwavelength Metallic Slit

JR Suckling, AP Hibbins, JR Sambles and CR Lawrence

New Journal of Physics, Vol.7, pp.250-?

13/12/2005

DOI: https://doi.org/10.1088/1367-2630/7/1/250

Abstract

Resonant transmission

Microwaves

Finite length slit

Subwavelength slit

Fabry-Perot

The resonant transmission of microwaves polarized perpendicular to a single subwavelength slit of finite length is presented in detail. It is shown that the resonant frequency rises monotonically as slit length is reduced. Increasing confinement of the resonant fields within the slit is shown to cause the frequency rise. Angle dependence of the transmission is also presented. The results show clearly Fabry-Perot-like standing waves in the direction of propagation with waveguide mode behaviour in the orthogonal direction.

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Title: Resonant Transmission of Microwaves Through a Finite Length Subwavelength Metallic Slit
Creators: JR Suckling
AP Hibbins
JR Sambles
CR Lawrence
Publication Details: New Journal of Physics, Vol.7, pp.250-?
Publisher: IOP Science
Date published: 13/12/2005
Date submitted: 17/05/2017
Identifiers: 99511158802346
Academic Unit: University of Surrey
Language: English
Resource Type: Journal article

Resonant Transmission of Microwaves Through a Finite Length Subwavelength Metallic Slit

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