Non-reciprocal diffraction in magnetoplasmonic gratings
- Scientific Highlights 19 March 2019 1137 hits
Rafael Cichelero, Mikko Kataja, Mariano Campoy-Quiles, and Gervasi Herranz, "Non-reciprocal diffraction in magnetoplasmonic gratings," Opt. Express 26, 34842-34852 (2018).
Phase-matching conditions—used to bridge the wave vector mismatch between light and surface plasmon polaritons (SPPs)—have been exploited recently to enable nonreciprocal optical propagation and enhanced magneto-optic responses in magnetoplasmonic systems. Here we show that using diffraction in conjunction with plasmon excitations leads to a photonic system with a more versatile and flexible response. As a testbed, we analyzed diffracted magneto-optical effects in magnetoplasmonic gratings, where broken time-reversal symmetry induces frequency shifts in the energy and angular spectra of plasmon resonance. These result in exceptionally large responses in the diffracted magneto-optical effect. The concepts presented here can be used to develop non-reciprocal optical devices that exploit diffraction, in order to achieve tailored electromagnetic responses.Unexpected large transverse magneto-optic Kerr effect at quasi-normal incidence in magnetoplasmonic crystals
Related Topics: Oxides for new-generation electronics