Loss vs Magnetization Threshold Phenomenon for Lorentz Nonreciprocity Induced by a Gyrotropic Particle Inside a Cavity

Abstract

When a plasmonic particle is subject to a static magnetic field, B dc=B0 z, its gyrotropic response gives rise to nonreciprocal dynamics of the entire ambient surroundings. This dynamics depends on the particle's excitation which in turn depends on the gyrotropic material damping rate . Thus intuitively speaking, the heavier the gyrotropic material loss, the weaker the non-reciprocal response. This is indeed the case when the particle is located in free space. In this letter, we quantify nonreciprocity using the defined measure R and show that when the gyrotropic particle is placed inside a cavity, the nonreciprocity measure R is robust against material loss up to a certain loss threshold, th that depends on the magnetic biasing B0

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