Extraordinary optical transmission phenomena to the light of microwave field theory

Unexpected enhanced transmission of electromagnetic waves through periodic arrays of electrically small holes or slits in opaque screens has been a hot topic of research during the last ten years. Most of work has been done in the frame of optics and condensed matter physics. At the present moment t...

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Detalles Bibliográficos
Autores principales: Medina, F., Mesa, F., Skigin, D.C., Marqués, R.
Formato: CONF
Materias:
Arsenic compounds
Circuit theory
Electric fields
Electromagnetic waves
Electromagnetism
Light
Microwave circuits
Microwaves
Plasmons
International conferences
Mathematical methods
Microwave fields
Surface plasmons
Two dimensional
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_97814244_v_n_p31_Medina
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_97814244_v_n_p31_Medina
record_format dspace
spelling todo:paper_97814244_v_n_p31_Medina2023-10-03T16:43:09Z Extraordinary optical transmission phenomena to the light of microwave field theory Medina, F. Mesa, F. Skigin, D.C. Marqués, R. Arsenic compounds Circuit theory Electric fields Electromagnetic waves Electromagnetism Light Microwave circuits Microwaves Plasmons International conferences Mathematical methods Microwave fields Surface plasmons Two dimensional Unexpected enhanced transmission of electromagnetic waves through periodic arrays of electrically small holes or slits in opaque screens has been a hot topic of research during the last ten years. Most of work has been done in the frame of optics and condensed matter physics. At the present moment there is a well established theory explaining this phenomenon in terms of the so-called (spoof) surface plasmons. However, a simpler compatible point of view based on familiar concepts coming from classical microwave field and circuit theories is possible. This approach has the advantage of leading to simple reasonings able to predict the behavior of the perforated screens without resorting to tedious computation and/or complex theories. In this work we will show that the main physics of extraordinary transmission in 1D (arrays of slits and compound slits) and 2D (finite size holes arranged into square or rectangular lattices) systems is captured by simple equivalent circuit models. Moreover, the new approach allows us to state that extraordinary transmission is possible in systems without periodicity and in the absence of surface plasmons. © 2008 IEEE. CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_97814244_v_n_p31_Medina
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Arsenic compounds
Circuit theory
Electric fields
Electromagnetic waves
Electromagnetism
Light
Microwave circuits
Microwaves
Plasmons
International conferences
Mathematical methods
Microwave fields
Surface plasmons
Two dimensional
spellingShingle Arsenic compounds
Circuit theory
Electric fields
Electromagnetic waves
Electromagnetism
Light
Microwave circuits
Microwaves
Plasmons
International conferences
Mathematical methods
Microwave fields
Surface plasmons
Two dimensional
Medina, F.
Mesa, F.
Skigin, D.C.
Marqués, R.
Extraordinary optical transmission phenomena to the light of microwave field theory
topic_facet Arsenic compounds
Circuit theory
Electric fields
Electromagnetic waves
Electromagnetism
Light
Microwave circuits
Microwaves
Plasmons
International conferences
Mathematical methods
Microwave fields
Surface plasmons
Two dimensional
description Unexpected enhanced transmission of electromagnetic waves through periodic arrays of electrically small holes or slits in opaque screens has been a hot topic of research during the last ten years. Most of work has been done in the frame of optics and condensed matter physics. At the present moment there is a well established theory explaining this phenomenon in terms of the so-called (spoof) surface plasmons. However, a simpler compatible point of view based on familiar concepts coming from classical microwave field and circuit theories is possible. This approach has the advantage of leading to simple reasonings able to predict the behavior of the perforated screens without resorting to tedious computation and/or complex theories. In this work we will show that the main physics of extraordinary transmission in 1D (arrays of slits and compound slits) and 2D (finite size holes arranged into square or rectangular lattices) systems is captured by simple equivalent circuit models. Moreover, the new approach allows us to state that extraordinary transmission is possible in systems without periodicity and in the absence of surface plasmons. © 2008 IEEE.
format CONF
author Medina, F.
Mesa, F.
Skigin, D.C.
Marqués, R.
author_facet Medina, F.
Mesa, F.
Skigin, D.C.
Marqués, R.
author_sort Medina, F.
title Extraordinary optical transmission phenomena to the light of microwave field theory
title_short Extraordinary optical transmission phenomena to the light of microwave field theory
title_full Extraordinary optical transmission phenomena to the light of microwave field theory
title_fullStr Extraordinary optical transmission phenomena to the light of microwave field theory
title_full_unstemmed Extraordinary optical transmission phenomena to the light of microwave field theory
title_sort extraordinary optical transmission phenomena to the light of microwave field theory
url http://hdl.handle.net/20.500.12110/paper_97814244_v_n_p31_Medina
work_keys_str_mv AT medinaf extraordinaryopticaltransmissionphenomenatothelightofmicrowavefieldtheory
AT mesaf extraordinaryopticaltransmissionphenomenatothelightofmicrowavefieldtheory
AT skigindc extraordinaryopticaltransmissionphenomenatothelightofmicrowavefieldtheory
AT marquesr extraordinaryopticaltransmissionphenomenatothelightofmicrowavefieldtheory
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