Topological One-Way Edge States in an Air-Hole Honeycomb Gyromagnetic Photonic Crystal

Peng, Chaoqun; Chen, Jianfeng; Qin, Qiumeng; Li, Zhiyuan

doi:10.3389/fphy.2021.825643

Cited by 11 publications

(2 citation statements)

References 41 publications

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“…To further explore the potential applications of TPSs in various topological photonic systems, an amount of functionalities and prototypes of topological photonic devices have been implemented, including but not limited to multimode one-way waveguides, [34,35] high-throughput one-way waveguides, [86,94] topological antennas, [95][96][97] topological one-way delay-lines, [48,88,90,98,99] topological beam splitters, [52,84] topological laser, [47] and topological one-way fiber. [100] In this section, we will mainly give a brief introduction of two typical topological photonic applications in GPCs, topological laser [47] and topological one-way fiber.…”

Section: Device Applicationsmentioning

confidence: 99%

Topological photonic states in gyromagnetic photonic crystals: Physics, properties, and applications

Chen¹,

Li²

2022

Chinese Phys. B

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Topological photonic states (TPSs) as a new type of waveguide state with one-way transport property can resist backscattering and are impervious to defects, disorders and metallic obstacles. Gyromagnetic photonic crystal (GPC) is the first artificial microstructure to implement TPSs, and it is also one of the most important platforms for generating truly one-way TPSs and exploring their novel physical properties, transport phenomena and advanced applications. Herein, we present a brief review of the fundamental physics, novel properties and practical applications of TPSs based on GPCs. We first examine chiral one-way edge states existing in uniformly magnetized GPCs of ordered and disordered lattices, antichiral one-way edge states in cross magnetized GPCs, and robust one-way bulk states in heterogeneously magnetized GPCs. Then, we discuss the strongly coupling effect between two co-propagating (or counter-propagating) TPSs and the resulting physical phenomena and device applications. Finally, we analyze the key issues and prospect the future development trends for TPSs in GPCs. The purpose of this brief review is to provide an overview of the main features of TPSs in GPC systems and offer a useful guidance and motivation for interested scientists and engineers working in related scientific and technological areas.

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Section: Device Applicationsmentioning

confidence: 99%

Topological photonic states in gyromagnetic photonic crystals: Physics, properties, and applications

Chen¹,

Li²

2022

Chinese Phys. B

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“…In this scenario, one-way edge states emerge with topological protection properties, allowing photons to propagate in one direction and forbidding backscattering under any type of imperfections. Utilizing this one-way property, one can construct numerous useful photonic devices, such as topological dispersionless slow light states [ 22 , 23 , 24 ], topological splitters [ 6 , 25 ], topological lasers [ 26 ] and topological antennas [ 27 , 28 ]. Contextually, a natural question appears: can PCTIs offer an effective solution to avoid mode-mixing problems and impedance-mismatching issues at terminates, intersections and discontinuities in designing PhCs-based circuits and devices, besides the one-way transport property?…”

Section: Introductionmentioning

confidence: 99%

Topological Resistance-Free One-Way Transport in a Square-Hexagon Lattice Gyromagnetic Photonic Crystal

et al. 2022

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We theoretically propose and experimentally realize a new configuration of a photonic Chern topological insulator (PCTI) composed of a two-dimensional square-hexagon lattice gyromagnetic photonic crystal immersed in an external magnetic field. This PCTI possesses five distinct types of edges and all of them allowed the propagation of truly one-way edge states. We proceeded to utilize this special PCTI to design topological transmission lines of various configurations with sharp turns. Although the wave impedances of the edge states on both sides of the intersections in these transmission lines were very different, definitely no back reflection occurred and no mode-mixing problems and impedance-mismatching issues at the intersections were present, leading to topological resistance-free one-way transport in the whole transmission line network. Our results enrich the geometric and physical means and infrastructure to construct one-way transport and bring about novel platforms for developing topology-driven resistance-free photonic devices.

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Obstruction immune topological propagation in 3D-printed metal-based photonic crystals

Jana¹,

Devi²,

Chowdhury³

2023

Optics Communications

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Topological One-Way Edge States in an Air-Hole Honeycomb Gyromagnetic Photonic Crystal

Cited by 11 publications

References 41 publications

Topological photonic states in gyromagnetic photonic crystals: Physics, properties, and applications

Topological photonic states in gyromagnetic photonic crystals: Physics, properties, and applications

Topological Resistance-Free One-Way Transport in a Square-Hexagon Lattice Gyromagnetic Photonic Crystal

Obstruction immune topological propagation in 3D-printed metal-based photonic crystals

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