Abstract
We investigate the inverse Faraday effect (IFE) by surface plasmon traveling modes in an ultracompact magnetoplasmonic disk resonator side-coupled to a plasmonic waveguide. The magnetic field by the IFE reacts to the traveling modes and leads to a nonlinear shift of the resonance in the disk resonator. Describing those nonlinear phenomena analytically by using the temporal coupled mode theory and the Lorentz reciprocity theorem, we propose a conception of hysteretic optomagnetic bistability that the system has two stable states of optically induced magnetic field to switch on and off, depending upon the history of the incident optical power. The numerical simulations agree well with the analytical prediction. The proposed conception may find potential applications in all-optical magnetic recording and switching with nanometer resolution.
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