Boyd, T.; Gratus, J.; Kinsler, P.; Letizia, R.; Seviour, R. Mode Profile Shaping in Wire Media: Towards An Experimental Verification. Appl. Sci.2018, 8, 1276.
Boyd, T.; Gratus, J.; Kinsler, P.; Letizia, R.; Seviour, R. Mode Profile Shaping in Wire Media: Towards An Experimental Verification. Appl. Sci. 2018, 8, 1276.
Boyd, T.; Gratus, J.; Kinsler, P.; Letizia, R.; Seviour, R. Mode Profile Shaping in Wire Media: Towards An Experimental Verification. Appl. Sci.2018, 8, 1276.
Boyd, T.; Gratus, J.; Kinsler, P.; Letizia, R.; Seviour, R. Mode Profile Shaping in Wire Media: Towards An Experimental Verification. Appl. Sci. 2018, 8, 1276.
Abstract
We show that an experimentally plausible system consisting of a modulated wire medium hosted in a metal cavity can preserve the longitudinal field profile shaping predicted by Boyd et al. (2018) on the basis of a perfectly periodic wire-only structure. These new frequency domain numerical results are a significant step towards justifying the construction of an experimental apparatus to test the field profile shaping in practise.
Keywords
spatial dispersion; field profile; metamaterials; photonics; RF engineering
Subject
Physical Sciences, Optics and Photonics
Copyright:
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