Implementation of various Bessel beams in the framework of the discrete dipole approximation

Stefania A. Glukhova; Maxim A. Yurkin

doi:10.1063/5.0032030

Implementation of various Bessel beams in the framework of the discrete dipole approximation

Результат исследования: Публикации в книгах, отчётах, сборниках, трудах конференций › статья в сборнике материалов конференции › научная › рецензирование

Аннотация

In this work we generalize the classical framework of Mueller (or amplitude) scattering matrices for the Bessel beams (BBs). For that we extend the rotation relations of BBs (considering 'vortex' additional phase factor) for an arbitrary angle, which are useful for solving the scattering problem in a rotated coordinate system. Thus, we rework the existing classification of the BBs and their polarizations with the focus on rotation relations between them. We have already implemented all BB types with arbitrary polarizations/rotations in a separate branch of ADDA, and are working on testing the code. As a result, it should be trivial for anyone to simulate the scattering of Bessel beams by arbitrary inhomogeneous particles, including randomly orientated ones.

Язык оригинала	английский
Название основной публикации	5th International Conference on Metamaterials and Nanophotonics, METANANO 2020
Редакторы	Pavel Belov, Mihail Petrov
Издатель	American Institute of Physics Inc.
ISBN (электронное издание)	9780735440340
DOI	https://doi.org/10.1063/5.0032030
Состояние	Опубликовано - 8 дек. 2020
Событие	5th International Conference on Metamaterials and Nanophotonics, METANANO 2020 - St. Petersburg, Virtual, Российская Федерация Продолжительность: 14 сент. 2020 → 18 сент. 2020

Серия публикаций

Название	AIP Conference Proceedings
Том	2300
ISSN (печатное издание)	0094-243X
ISSN (электронное издание)	1551-7616

Конференция

Конференция	5th International Conference on Metamaterials and Nanophotonics, METANANO 2020
Страна/Tерритория	Российская Федерация
Город	St. Petersburg, Virtual
Период	14.09.2020 → 18.09.2020

Предметные области OECD FOS+WOS

2.05.PM МАТЕРИАЛОВЕДЕНИЕ, МУЛЬТИДИСЦИПЛИНАРНОЕ
1.03.SY ОПТИКА
1.03.UB ФИЗИКА, ПРИКЛАДНАЯ

Доступ к документу

10.1063/5.0032030

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Ссылка на публикацию в Scopus

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Glukhova, S. A., & Yurkin, M. A. (2020). Implementation of various Bessel beams in the framework of the discrete dipole approximation. В P. Belov, & M. Petrov (Ред.), 5th International Conference on Metamaterials and Nanophotonics, METANANO 2020 [020037] (AIP Conference Proceedings; Том 2300). American Institute of Physics Inc.. https://doi.org/10.1063/5.0032030

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title = "Implementation of various Bessel beams in the framework of the discrete dipole approximation",

abstract = "In this work we generalize the classical framework of Mueller (or amplitude) scattering matrices for the Bessel beams (BBs). For that we extend the rotation relations of BBs (considering 'vortex' additional phase factor) for an arbitrary angle, which are useful for solving the scattering problem in a rotated coordinate system. Thus, we rework the existing classification of the BBs and their polarizations with the focus on rotation relations between them. We have already implemented all BB types with arbitrary polarizations/rotations in a separate branch of ADDA, and are working on testing the code. As a result, it should be trivial for anyone to simulate the scattering of Bessel beams by arbitrary inhomogeneous particles, including randomly orientated ones. ",

author = "Glukhova, {Stefania A.} and Yurkin, {Maxim A.}",

note = "Publisher Copyright: {\textcopyright} 2020 Author(s). Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; 5th International Conference on Metamaterials and Nanophotonics, METANANO 2020 ; Conference date: 14-09-2020 Through 18-09-2020",

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Glukhova, SA & Yurkin, MA 2020, Implementation of various Bessel beams in the framework of the discrete dipole approximation. в P Belov & M Petrov (ред.), 5th International Conference on Metamaterials and Nanophotonics, METANANO 2020., 020037, AIP Conference Proceedings, том. 2300, American Institute of Physics Inc., 5th International Conference on Metamaterials and Nanophotonics, METANANO 2020, St. Petersburg, Virtual, Российская Федерация, 14.09.2020. https://doi.org/10.1063/5.0032030

Implementation of various Bessel beams in the framework of the discrete dipole approximation. / Glukhova, Stefania A.; Yurkin, Maxim A.

5th International Conference on Metamaterials and Nanophotonics, METANANO 2020. ред. / Pavel Belov; Mihail Petrov. American Institute of Physics Inc., 2020. 020037 (AIP Conference Proceedings; Том 2300).

Результат исследования: Публикации в книгах, отчётах, сборниках, трудах конференций › статья в сборнике материалов конференции › научная › рецензирование

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N2 - In this work we generalize the classical framework of Mueller (or amplitude) scattering matrices for the Bessel beams (BBs). For that we extend the rotation relations of BBs (considering 'vortex' additional phase factor) for an arbitrary angle, which are useful for solving the scattering problem in a rotated coordinate system. Thus, we rework the existing classification of the BBs and their polarizations with the focus on rotation relations between them. We have already implemented all BB types with arbitrary polarizations/rotations in a separate branch of ADDA, and are working on testing the code. As a result, it should be trivial for anyone to simulate the scattering of Bessel beams by arbitrary inhomogeneous particles, including randomly orientated ones.

AB - In this work we generalize the classical framework of Mueller (or amplitude) scattering matrices for the Bessel beams (BBs). For that we extend the rotation relations of BBs (considering 'vortex' additional phase factor) for an arbitrary angle, which are useful for solving the scattering problem in a rotated coordinate system. Thus, we rework the existing classification of the BBs and their polarizations with the focus on rotation relations between them. We have already implemented all BB types with arbitrary polarizations/rotations in a separate branch of ADDA, and are working on testing the code. As a result, it should be trivial for anyone to simulate the scattering of Bessel beams by arbitrary inhomogeneous particles, including randomly orientated ones.

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