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Scattering of Laguerre–Gaussian beam by a topological insulator cylinder coated with metamaterials

Scattering of Laguerre–Gaussian beam by a topological insulator cylinder coated with metamaterials
Scattering of Laguerre–Gaussian beam by a topological insulator cylinder coated with metamaterials
A theoretical investigation is presented to study the orbital angular momentum (OAM) beam scattering from a topological insulator (TI) cylinder coated with metamaterials. To calculate the electromagnetic (EM) response of the scattered field, the field equations are modified using Laguerre–Gaussian (LG) potential and plane wave scattering. The response of the metamaterial coated geometry has been reported for Double positive (DPS), Double negative (DNG), Epsilon negative (ENG), and Mu negative (MNG) coating layers, respectively. The normalized bistatic echo widths for the TI cylinder also change by changing the topological charge (l), the radius of the metamaterial coated layer (b), source frequency (f), and beam waist radius (w0). Our result for LG00 beam exactly tones with plane wave scattering as a reference. Numerical results in the form of bistatic echo widths have been calculated. Besides, the prementioned parameters, the influence of OAM mode index on the bistatic echo width is also analyzed. It can be seen that OAM mode number plays major role in controlling the scattering amplitude and intensity.
laguerre-guassian potential, metamaterials, orbital angular momentum, scattered fields, topological insulator, Scattered fields, Topological insulator, Orbital angular momentum, Metamaterials, Laguerre–Gaussian potential
1028-6276
1421-1430
Arfan, Muhammad
c03a2936-e62d-4096-8c43-6f65eb0c2f77
Khaleel, Naila
e46d111e-327c-470b-8c2b-388ff5d18523
Ghaffar, Abdul
a6227f0b-0415-4c0f-9124-1b1d751438de
Khalil Alsaif, Faisal
16594f40-ec61-44e1-bfee-c32121cc16ee
Khan, Yasin
716a6a12-0d49-4639-94e6-dbff6c2a0ca7
Alsulamy, Sager
a493454f-6a82-4990-943f-8ad11533f820
Arfan, Muhammad
c03a2936-e62d-4096-8c43-6f65eb0c2f77
Khaleel, Naila
e46d111e-327c-470b-8c2b-388ff5d18523
Ghaffar, Abdul
a6227f0b-0415-4c0f-9124-1b1d751438de
Khalil Alsaif, Faisal
16594f40-ec61-44e1-bfee-c32121cc16ee
Khan, Yasin
716a6a12-0d49-4639-94e6-dbff6c2a0ca7
Alsulamy, Sager
a493454f-6a82-4990-943f-8ad11533f820

Arfan, Muhammad, Khaleel, Naila, Ghaffar, Abdul, Khalil Alsaif, Faisal, Khan, Yasin and Alsulamy, Sager (2023) Scattering of Laguerre–Gaussian beam by a topological insulator cylinder coated with metamaterials. Iranian Journal of Science and Technology, Transactions A: Science, 47 (4), 1421-1430. (doi:10.1007/s40995-023-01484-w).

Record type: Article

Abstract

A theoretical investigation is presented to study the orbital angular momentum (OAM) beam scattering from a topological insulator (TI) cylinder coated with metamaterials. To calculate the electromagnetic (EM) response of the scattered field, the field equations are modified using Laguerre–Gaussian (LG) potential and plane wave scattering. The response of the metamaterial coated geometry has been reported for Double positive (DPS), Double negative (DNG), Epsilon negative (ENG), and Mu negative (MNG) coating layers, respectively. The normalized bistatic echo widths for the TI cylinder also change by changing the topological charge (l), the radius of the metamaterial coated layer (b), source frequency (f), and beam waist radius (w0). Our result for LG00 beam exactly tones with plane wave scattering as a reference. Numerical results in the form of bistatic echo widths have been calculated. Besides, the prementioned parameters, the influence of OAM mode index on the bistatic echo width is also analyzed. It can be seen that OAM mode number plays major role in controlling the scattering amplitude and intensity.

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More information

Accepted/In Press date: 27 May 2023
e-pub ahead of print date: 13 June 2023
Additional Information: Funding Information: This work was supported by the Researchers Supporting Project number (RSPD2023R646), King Saud University, Riyadh, Saudi Arabia.
Keywords: laguerre-guassian potential, metamaterials, orbital angular momentum, scattered fields, topological insulator, Scattered fields, Topological insulator, Orbital angular momentum, Metamaterials, Laguerre–Gaussian potential

Identifiers

Local EPrints ID: 483761
URI: http://eprints.soton.ac.uk/id/eprint/483761
ISSN: 1028-6276
PURE UUID: c7409f6d-8faf-4219-a73b-c320e1549959

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Date deposited: 04 Nov 2023 10:59
Last modified: 05 Jun 2024 17:45

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Contributors

Author: Muhammad Arfan
Author: Naila Khaleel
Author: Abdul Ghaffar
Author: Faisal Khalil Alsaif
Author: Yasin Khan
Author: Sager Alsulamy

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