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Topological guided‐mode resonances at non‐Hermitian nanophotonic interfaces

Ki Young Lee, Kwang Wook Yoo, Young‐Sun Choi, Gunpyo Kim, Sangmo Cheon, Jae Woong Yoon, Seok Ho Song

2021Nanophotonics30 citationsDOIOpen Access PDF

Abstract

Abstract The topological properties of photonic microstructures are of great interest because of their experimental feasibility for fundamental study and potential applications. Here, we show that robust guided‐mode‐resonance states exist in photonic domain‐wall structures whenever the complex photonic band structures involve certain topological correlations in general. Using the non‐Hermitian photonic analogy of the one‐dimensional Dirac equation, we derive essential conditions for photonic Jackiw‐Rebbi‐state resonances taking advantage of unique spatial confinement and spot‐like spectral features which are remarkably robust against random parametric errors. Therefore, the proposed resonance configuration potentially provides a powerful method to create compact and stable photonic resonators for various applications in practice.

Topics & Concepts

PhotonicsHermitian matrixNanophotonicsTopology (electrical circuits)Coupled mode theoryPhysicsPhotonic crystalParametric statisticsResonatorQuantum mechanicsOpticsMathematicsRefractive indexCombinatoricsStatisticsPhotonic and Optical DevicesPhotonic Crystals and ApplicationsTopological Materials and Phenomena
Topological guided‐mode resonances at non‐Hermitian nanophotonic interfaces | Litcius