Pourali, Nima, Alexander, Kevon, Hessel, Volker and Rebrov, Evgeny V. (2021) Tunable enhanced Faraday rotation in a defected plasma photonic crystal under external magnetic field with different declinations. Journal of Physics D: Applied Physics, 54 (50). 505203. doi:10.1088/1361-6463/ac2691

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Abstract

Magneto-optical responses and the potential for tunability when changing the variables of a one-dimensional defected magnetized plasma photonic crystal have been studied using a transfer matrix method for operation in the mm-range wavelength region. The effect of the number and dielectric defect layer thickness as well as the intensity and declination angle of magnetic field on transmittance, Faraday rotation, and its ellipticity has been investigated. The results demonstrate the ability to alter the resonant modes frequency at multiple levels of precision. The structures with four, six, and eight defect layers have been investigated. The number of defect dielectric layers changes the number of resonance modes. A single defect mode appears within the photonic bandgap with four defect dielectric layers while two defect modes were observed with six layers, and three modes with eight layers. An increase in magnetic field declination decreased the Faraday rotation intensity and width of Faraday resonance mode.

Item Type:	Journal Article
Subjects:	Q Science > QC Physics T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions:	Faculty of Science > Engineering
SWORD Depositor:	Library Publications Router
Library of Congress Subject Headings (LCSH):	Photonic crystals, Electromagnetic waves, Magnetic declination, Faraday effect
Journal or Publication Title:	Journal of Physics D: Applied Physics
Publisher:	IOP Publishing
ISSN:	0022-3727
Official Date:	24 September 2021
Dates:	Date Event 24 September 2021 Published 14 September 2021 Accepted
Volume:	54
Number:	50
Article Number:	505203
DOI:	10.1088/1361-6463/ac2691
Status:	Peer Reviewed
Publication Status:	Published
Access rights to Published version:	Open Access
RIOXX Funder/Project Grant:	Project/Grant ID RIOXX Funder Name Funder ID 810182 European Research Council http://dx.doi.org/10.13039/501100000781 20-69-46041 Russian Science Foundation http://dx.doi.org/10.13039/501100006769

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