Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide

Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide

We propose and numerically verify a design of the photonic integrated circuit for in-plane generation of a 1st azimuthal order vortex mode in dielectric rectangular waveguides. Radiation is introduced into the proposed structure in a standard way through two grating couplers. Applying a mode couplin...

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Main Authors: R.V. Kutluyarov, D.M. Fatkhiev, I.V. Stepanov, E.P. Grakhova, V.S. Lyubopytov, A.K. Sultanov
Format: Article
Language:English
Published: Samara National Research University 2021-06-01
Series:Компьютерная оптика
Subjects:
orbital angular momentum
integrated photonics
optical waveguides
in-plane generation
silicon-on-insulator
Online Access:http://computeroptics.ru/eng/KO/Annot/KO45-3/450303e.html
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spelling doaj-ec87d0e0a42c48f59b959feb4bc6f7c02021-06-19T08:07:45ZengSamara National Research UniversityКомпьютерная оптика0134-24522412-61792021-06-0145332433010.18287/2412-6179-CO-850Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguideR.V. Kutluyarov0D.M. Fatkhiev1I.V. Stepanov2E.P. Grakhova3V.S. Lyubopytov4A.K. Sultanov5Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12; Skolkovo Institute of Science and Technology, 121205, Moscow, Russia, Bolshoy Boulevard 30, bld. 1Ufa State Aviation Technical University, 450008, Ufa, Russia, Karla Marxa Street 12; Skolkovo Institute of Science and Technology, 121205, Moscow, Russia, Bolshoy Boulevard 30, bld. 1We propose and numerically verify a design of the photonic integrated circuit for in-plane generation of a 1st azimuthal order vortex mode in dielectric rectangular waveguides. Radiation is introduced into the proposed structure in a standard way through two grating couplers. Applying a mode coupling and specific phase shift, a field with the required amplitude-phase distribution is formed directly in the output waveguide. The geometric dimensions of the device are simulated and optimized to fit the technological parameters of the silicon-on-insulator platform.http://computeroptics.ru/eng/KO/Annot/KO45-3/450303e.htmlorbital angular momentumintegrated photonicsoptical waveguidesin-plane generationsilicon-on-insulator
collection DOAJ
language English
format Article
sources DOAJ
author R.V. Kutluyarov
D.M. Fatkhiev
I.V. Stepanov
E.P. Grakhova
V.S. Lyubopytov
A.K. Sultanov
spellingShingle R.V. Kutluyarov
D.M. Fatkhiev
I.V. Stepanov
E.P. Grakhova
V.S. Lyubopytov
A.K. Sultanov
Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
Компьютерная оптика
orbital angular momentum
integrated photonics
optical waveguides
in-plane generation
silicon-on-insulator
author_facet R.V. Kutluyarov
D.M. Fatkhiev
I.V. Stepanov
E.P. Grakhova
V.S. Lyubopytov
A.K. Sultanov
author_sort R.V. Kutluyarov
title Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
title_short Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
title_full Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
title_fullStr Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
title_full_unstemmed Design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
title_sort design and modeling of a photonic integrated device for optical vortex generation in a silicon waveguide
publisher Samara National Research University
series Компьютерная оптика
issn 0134-2452
2412-6179
publishDate 2021-06-01
description We propose and numerically verify a design of the photonic integrated circuit for in-plane generation of a 1st azimuthal order vortex mode in dielectric rectangular waveguides. Radiation is introduced into the proposed structure in a standard way through two grating couplers. Applying a mode coupling and specific phase shift, a field with the required amplitude-phase distribution is formed directly in the output waveguide. The geometric dimensions of the device are simulated and optimized to fit the technological parameters of the silicon-on-insulator platform.
topic orbital angular momentum
integrated photonics
optical waveguides
in-plane generation
silicon-on-insulator
url http://computeroptics.ru/eng/KO/Annot/KO45-3/450303e.html
work_keys_str_mv AT rvkutluyarov designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
AT dmfatkhiev designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
AT ivstepanov designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
AT epgrakhova designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
AT vslyubopytov designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
AT aksultanov designandmodelingofaphotonicintegrateddeviceforopticalvortexgenerationinasiliconwaveguide
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