Polarization rotation of localized modes in magneto-photonic Fibonacci structures containing nematic layers

In this study, we investigate the spectral characteristics of the oblique incident light transmitted by a multilayered structure composed of a quasi-periodic Fibonaccian sequence of nematic and magnetic layers. Using the Berreman 4 × 4 matrix formalism, we numerically obtain the transmission spectru...

Full description

Saved in:
Bibliographic Details
Published inMolecular Crystals and Liquid Crystals Vol. 657; no. 1; pp. 11 - 20
Main Authors da Silva, R. R., Zanetti, F. M., Lyra, M. L., de Oliveira, I. N.
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 02.11.2017
Taylor & Francis Ltd
Subjects
42.70.Df
42.70.Qs
78.20.Ls
Band gap
Energy gap
Faraday rotation
Incidence angle
Incident light
liquid crystalline photonic structure
magneto-optical device
Nematic
Photonic band gaps
Photonics
Polarization
quasi-crystals
Wavelengths
Online AccessGet full text

Cover

More Information
Summary:In this study, we investigate the spectral characteristics of the oblique incident light transmitted by a multilayered structure composed of a quasi-periodic Fibonaccian sequence of nematic and magnetic layers. Using the Berreman 4 × 4 matrix formalism, we numerically obtain the transmission spectrum and the polarization rotation angle of the system as a function of the incidence angle. Our results reveal that the mismatch between the wavelengths of the localized transmitted mode within the band gap and the mode with pronounced polarization rotation angle is reduced when one departs from the normal incidence condition. Further, we report the dependence of the band gap width and the spectral characteristics of the transmitted mode as a function of the incidence angle. The relevance of the present finding to the development of new magneto-optical devices is discussed.
ISSN:1542-1406
1563-5287
1527-1943
DOI:10.1080/15421406.2017.1402590