Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media

Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media

We theoretically study Dyakonov surface waveguide modes that propagate along the planar strip interfacial waveguide between two uniaxial dielectrics. We demonstrate that owing to the one-dimensional electromagnetic confinement, Dyakonov surface waveguide modes can propagate in the directions that ar...

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Main Authors: Chermoshentsev Dmitry A., Anikin Evgeny V., Dyakov Sergey A., Gippius Nikolay A.
Format: Article
Language:English
Published: De Gruyter 2020-10-01
Series:Nanophotonics
Subjects:
anisotropic materials
dyakonov surface waves
electromagnetic confinement
optical cavity
surface waves
waveguide
Online Access:https://doi.org/10.1515/nanoph-2020-0459
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spelling doaj-0269db460c4141ad90520f95b8ae77e52021-05-01T19:42:38ZengDe GruyterNanophotonics2192-86062192-86142020-10-019164785479710.1515/nanoph-2020-0459Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined mediaChermoshentsev Dmitry A.0Anikin Evgeny V.1Dyakov Sergey A.2Gippius Nikolay A.3Skolkovo Institute of Science and Technology, Moscow Region, RussiaSkolkovo Institute of Science and Technology, Moscow Region, RussiaSkolkovo Institute of Science and Technology, Moscow Region, RussiaSkolkovo Institute of Science and Technology, Moscow Region, RussiaWe theoretically study Dyakonov surface waveguide modes that propagate along the planar strip interfacial waveguide between two uniaxial dielectrics. We demonstrate that owing to the one-dimensional electromagnetic confinement, Dyakonov surface waveguide modes can propagate in the directions that are forbidden for the classical Dyakonov surface waves at the infinite interface. We show that this situation is similar to a waveguide effect and formulate the resonance conditions at which Dyakonov surface waveguide modes exist. We demonstrate that the propagation of such modes without losses is possible. We also consider a case of two-dimensional confinement, where the interface between two anisotropic dielectrics is bounded in both orthogonal directions. We show that such a structure supports Dyakonov surface cavity modes. Analytical results are confirmed by comparing with full-wave solutions of Maxwell’s equations. We believe that our work paves the way toward new insights in the field of surface waves in anisotropic media.https://doi.org/10.1515/nanoph-2020-0459anisotropic materialsdyakonov surface waveselectromagnetic confinementoptical cavitysurface waveswaveguide
collection DOAJ
language English
format Article
sources DOAJ
author Chermoshentsev Dmitry A.
Anikin Evgeny V.
Dyakov Sergey A.
Gippius Nikolay A.
spellingShingle Chermoshentsev Dmitry A.
Anikin Evgeny V.
Dyakov Sergey A.
Gippius Nikolay A.
Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
Nanophotonics
anisotropic materials
dyakonov surface waves
electromagnetic confinement
optical cavity
surface waves
waveguide
author_facet Chermoshentsev Dmitry A.
Anikin Evgeny V.
Dyakov Sergey A.
Gippius Nikolay A.
author_sort Chermoshentsev Dmitry A.
title Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
title_short Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
title_full Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
title_fullStr Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
title_full_unstemmed Dimensional confinement and waveguide effect of Dyakonov surface waves in twisted confined media
title_sort dimensional confinement and waveguide effect of dyakonov surface waves in twisted confined media
publisher De Gruyter
series Nanophotonics
issn 2192-8606
2192-8614
publishDate 2020-10-01
description We theoretically study Dyakonov surface waveguide modes that propagate along the planar strip interfacial waveguide between two uniaxial dielectrics. We demonstrate that owing to the one-dimensional electromagnetic confinement, Dyakonov surface waveguide modes can propagate in the directions that are forbidden for the classical Dyakonov surface waves at the infinite interface. We show that this situation is similar to a waveguide effect and formulate the resonance conditions at which Dyakonov surface waveguide modes exist. We demonstrate that the propagation of such modes without losses is possible. We also consider a case of two-dimensional confinement, where the interface between two anisotropic dielectrics is bounded in both orthogonal directions. We show that such a structure supports Dyakonov surface cavity modes. Analytical results are confirmed by comparing with full-wave solutions of Maxwell’s equations. We believe that our work paves the way toward new insights in the field of surface waves in anisotropic media.
topic anisotropic materials
dyakonov surface waves
electromagnetic confinement
optical cavity
surface waves
waveguide
url https://doi.org/10.1515/nanoph-2020-0459
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AT anikinevgenyv dimensionalconfinementandwaveguideeffectofdyakonovsurfacewavesintwistedconfinedmedia
AT dyakovsergeya dimensionalconfinementandwaveguideeffectofdyakonovsurfacewavesintwistedconfinedmedia
AT gippiusnikolaya dimensionalconfinementandwaveguideeffectofdyakonovsurfacewavesintwistedconfinedmedia
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