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Passive Nonlinear Optical Isolators Bypassing Dynamic Reciprocity

Yiqi Hu, Yihong Qi, Yu You, Shicheng Zhang, Gongwei Lin, Xiaolin Li, Jiangbin Gong, Shangqing Gong, Yueping Niu

2021Physical Review Applied31 citationsDOIOpen Access PDF

Abstract

Magnetic-free optical isolators are critical components for the realization of integrated optical systems. The underlying physics of passive nonlinear optical isolators is not solely about breaking the Lorentz reciprocity without requiring any external bias. Indeed, one major obstacle to the operation of self-Kerr-type nonlinear optical isolators is the so-called dynamic reciprocity, of which a serious outcome is that a backward signal cannot be isolated in the presence of a forward strong signal. In this work, we advocate the concept of velocity-selective nonlinearity to bypass such dynamic reciprocity. Using a proof-of-principle platform with warm rubidium atoms in an asymmetric cavity, we experimentally achieve the isolation of a backward signal in the presence of a strong forward signal, with experimental observations in agreement with our theoretical simulations. This work has thus made one essential step towards functioning Kerr-type passive optical isolators.

Topics & Concepts

Reciprocity (cultural anthropology)Nonlinear systemPhysicsOptical isolatorRealization (probability)ObstacleNonlinear opticalSIGNAL (programming language)IsolatorLorentz transformationWork (physics)MultistabilityOptical discOptical switchNonlinear mediumControl theory (sociology)OpticsNonlinear opticsIsolation (microbiology)Component (thermodynamics)InverseComputer scienceMechanical and Optical ResonatorsMagneto-Optical Properties and ApplicationsNeural Networks and Reservoir Computing
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