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Nonlinearity-Induced Reciprocity Breaking in a Single Nonmagnetic Taiji Resonator

A. Muñoz de las Heras, R. Franchi, S. Biasi, M. Ghulinyan, L. Pavesi, I. Carusotto

2021Physical Review Applied29 citationsDOIOpen Access PDF

Abstract

We report on the demonstration of an effective, nonlinearity-induced nonreciprocal behavior in a single nonmagnetic multi-mode Taiji resonator. Nonreciprocity is achieved by a combination of an intensity-dependent refractive index and of a broken spatial reflection symmetry. Continuous wave power-dependent transmission experiments show nonreciprocity and a direction-dependent optical bistability loop. These can be explained in terms of the unidirectional mode coupling that causes an asymmetric power enhancement in the resonator. The observations are quantitatively reproduced by a numerical finite-element theory and physically explained by an analytical coupled-mode theory. This nonlinear Taiji resonator has the potential of being the building block of large arrays for the study of topological and/or non-Hermitian physics. This represents an important step towards the miniaturization of nonreciprocal elements for photonic integrated networks.

Topics & Concepts

ResonatorPhysicsReciprocity (cultural anthropology)BistabilityMiniaturizationNonlinear systemReflection (computer programming)Coupling (piping)Coupled mode theoryTransmission (telecommunications)Refractive indexOpticsOptical bistabilityPhotonicsPower (physics)Nonlinear opticsResonance (particle physics)Condensed matter physicsMode (computer interface)Realization (probability)Symmetry (geometry)Topology (electrical circuits)Mode couplingQuantum electrodynamicsQuantum mechanicsBlock (permutation group theory)Reflection coefficientQuantum Mechanics and Non-Hermitian PhysicsNonlinear Photonic SystemsTopological Materials and Phenomena