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Topological large-area one-way transmission in pseudospin-field-dependent waveguides using magneto-optical photonic crystals

Xinyue Yu, Jianfeng Chen, Zhiyuan Li, Wenyao Liang

2023Photonics Research39 citationsDOI

Abstract

We propose a pseudospin-field-dependent waveguide (PFDW) by constructing a sandwiched heterostructure consisting of three magneto-optical photonic crystals (MOPCs) with different geometric parameters. The upper expanded MOPC applied with an external magnetic field has broken time-reversal symmetry (TRS) and an analogous quantum spin Hall (QSH) effect, while the middle standard and the lower compressed ones are not magnetized and trivial. Attributed to the TRS-broken-QSH effect of the upper MOPC, the topological large-area one-way transmission that uniformly distributes over the middle domain is achieved and exhibits the characteristics of a pseudospin-field-momentum-locking; i.e., pseudospin-down (or pseudospin-up) leftward (or rightward) waveguide state when the positive (or negative) magnetic field is applied on the upper MOPC. We further demonstrate the strong robustness of the PFDW against backscattering from various kinds of defects. In addition, a topological beam modulator that can compress or expand the light beam, and a large-area pseudospin beam splitter have been designed. These results have potential in various applications such as sensing, signal processing, and optical communications.

Topics & Concepts

PhysicsPhotonicsMagnetic fieldBeam splitterWaveguideTopology (electrical circuits)OpticsPhotonic crystalLight beamCondensed matter physicsQuantum mechanicsLaserCombinatoricsMathematicsTopological Materials and PhenomenaPhotonic Crystals and ApplicationsNeural Networks and Reservoir Computing
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