Comment on "Finite Conductance Governs the Resonance Transmission of   Thin Metal Slits at Microwave Frequencies"

Shuwen Chen; Reuven Gordon

arXiv:1410.8248·physics.optics·October 31, 2014

Comment on "Finite Conductance Governs the Resonance Transmission of Thin Metal Slits at Microwave Frequencies"

Shuwen Chen, Reuven Gordon

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TL;DR

This paper offers a quantitative analysis aligning with experimental results on microwave transmission through thin metal slits, incorporating finite conductivity effects via a minor wavelength adjustment.

Contribution

It provides a theoretical explanation that matches experimental data and accounts for finite conductivity effects with a simple modification.

Findings

01

Quantitative agreement with experiment

02

Finite conductivity effects can be modeled with wavelength adjustment

03

Supports the resonance transmission mechanism

Abstract

We provides quantitative agreement with the experiment of Ref [J.R.Sucking et al,Phys. Rev. Lett. 92, 147401 (2004)], and can account for the effects of the finite conductivity with a small modification to the effective wavelength.

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Taxonomy

TopicsSurface and Thin Film Phenomena · Microwave and Dielectric Measurement Techniques · Photonic Crystals and Applications