Litcius/Paper detail

Enhancement of Both Faraday and Kerr Effects with an All-Dielectric Grating Based on a Magneto-Optical Nanocomposite Material

François Royer, Bobin Varghese, Émilie Gamet, Sophie Neveu, Yves Jourlin, Damien Jamon

2020ACS Omega59 citationsDOIOpen Access PDF

Abstract

nanoparticles, and able to fill the grating slits. By a proper adjustment of the geometrical parameters of such a photonic crystal membrane, simultaneous excitation of transverse electric (TE) and transverse magnetic (TM) polarization resonances is nearly achieved at 1570 nm. This TE/TM phase-matching situation leads to a fivefold enhancement of the Faraday effect in the resonance area with an increased merit factor of 0.32°. Moreover, the device demonstrates its ability to enhance longitudinal and transverse Kerr effects for the other directions of the applied magnetic field. Taking benefits from the ability of the nanocomposite material to be processed on photonic platforms, and despite its quite low magneto-optical activity compared to classical magnetic materials, this work proves that an all-dielectric 1D device can produce a high magneto-optical sensitivity to every magnetic field directions.

Topics & Concepts

Materials scienceGratingFaraday effectKerr effectDielectricNanocompositeOptoelectronicsRefractive indexOpticsFigure of meritPolarization (electrochemistry)Magnetic fieldNanotechnologyChemistryNonlinear systemQuantum mechanicsPhysicsPhysical chemistryMagneto-Optical Properties and ApplicationsPhotonic and Optical DevicesPhotonic Crystals and Applications