Acta Optica Sinica, Volume. 42, Issue 15, 1524001(2022)
Influence of Lattice Perturbation on Fano Resonance Properties of Nanohole Metasurface
[1] Li Z, Liu W W, Li Z C et al. Fano-resonance-based mode-matching hybrid metasurface for enhanced second-harmonic generation[J]. Optics Letters, 42, 3117-3120(2017).
[2] Liao K, Gan T Y, Hu X Y et al. On-chip nanophotonic devices based on dielectric metasurfaces[J]. Acta Optica Sinica, 41, 0823001(2021).
[3] Zhu H T, Pu T, Mou W F et al. Analysis of beat noise in optical stealth transmission system[J]. Optics Communications, 501, 127390(2021).
[4] Shi W J, Wang Y Q, Zhou J C et al. Multifunctional Fano resonance modulator with graphene-based double-layer independent gratings[J]. Journal of the Optical Society of America B, 38, 2823-2829(2021).
[5] Yang L, Wang J C, Yang L Z et al. Characteristics of multiple Fano resonances in waveguide-coupled surface plasmon resonance sensors based on waveguide theory[J]. Scientific Reports, 8, 2560(2018).
[6] Bochkova E, Han S, de Lustrac A et al. High-Q Fano resonances via direct excitation of an antisymmetric dark mode[J]. Optics Letters, 43, 3818-3821(2018).
[7] Zhang W W, Feng Y M, Zhang Y X et al. Sensitivity and tunability of heptamer clusters composed of asymmetric split nanorings[J]. Journal of Physics D: Applied Physics, 48, 275102(2015).
[8] Moritake Y, Kanamori Y, Hane K. Demonstration of sharp multiple Fano resonances in optical metamaterials[J]. Optics Express, 24, 9332-9339(2016).
[9] Liu S D, Leong E S P, Li G C et al. Polarization-independent multiple Fano resonances in plasmonic nonamers for multimode-matching enhanced multiband second-harmonic generation[J]. ACS Nano, 10, 1442-1453(2016).
[10] Zhang X D, Kong D P, Liu S J et al. All-dielectric metasurface with multi-function in the near-infrared band[J]. Journal of the Optical Society of America A, 37, 1731-1739(2020).
[11] Hoang T T, Ngo Q M, Vu D L et al. Controlling Fano resonances in multilayer dielectric gratings towards optical bistable devices[J]. Scientific Reports, 8, 16404(2018).
[12] Ban G X, Gong C, Zhou C B et al. Fano-resonant silicon photonic crystal slab for efficient third-harmonic generation[J]. Optics Letters, 44, 126-129(2019).
[13] Cui C C, Zhou C B, Yuan S et al. Multiple Fano resonances in symmetry-breaking silicon metasurface for manipulating light emission[J]. ACS Photonics, 5, 4074-4080(2018).
[14] Bai T R, Li Q, Wang Y Q et al. Terahertz vortex beam generator based on bound states in the continuum[J]. Optics Express, 29, 25270-25279(2021).
[15] Zhou C B, Liu G Q, Ban G X et al. Tunable Fano resonator using multilayer graphene in the near-infrared region[J]. Applied Physics Letters, 112, 101904(2018).
[16] Xu H Z, Zhong R H, Wang X L et al. Dual-wavelength filters based on two-dimensional photonic crystal degenerate modes with a ring dielectric rod inside the defect cavity[J]. Applied Optics, 54, 4534-4541(2015).
[17] Lee J, Zhen B, Chua S L et al. Observation and differentiation of unique high-Q optical resonances near zero wave vector in macroscopic photonic crystal slabs[J]. Physical Review Letters, 109, 067401(2012).
[18] Crozier K B, Lousse V, Kilic O et al. Air-bridged photonic crystal slabs at visible and near-infrared wavelengths[J]. Physical Review B, 73, 115126(2006).
[19] Cui C C, Yuan S, Qiu X Z et al. Light emission driven by magnetic and electric toroidal dipole resonances in a silicon metasurface[J]. Nanoscale, 11, 14446-14454(2019).
[20] Xiang J, Xu Y, Lan S. Fluorescence manipulation based on Mie resonance of semiconductor nanoparticles with high refractive index[J]. Chinese Journal of Lasers, 47, 0701015(2020).
[21] Bi W L, Zhang X, Yan M et al. Low-threshold and controllable nanolaser based on quasi-BIC supported by an all-dielectric eccentric nanoring structure[J]. Optics Express, 29, 12634-12643(2021).
[22] Kuang Y Q, Li G, Yan Z Q et al. Absorption and refractive index sensitivity of the I-shaped elliptical nanostructures[J]. Acta Optica Sinica, 40, 1424001(2020).
[23] Yuan S, Qiu X Z, Cui C C et al. Strong photoluminescence enhancement in all-dielectric Fano metasurface with high quality factor[J]. ACS Nano, 11, 10704-10711(2017).
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Ying Chen, Meijie Li, Jiankun Wang, Meng Zhao. Influence of Lattice Perturbation on Fano Resonance Properties of Nanohole Metasurface[J]. Acta Optica Sinica, 2022, 42(15): 1524001
Category: Optics at Surfaces
Received: Dec. 31, 2021
Accepted: Mar. 8, 2022
Published Online: Aug. 4, 2022
The Author Email: Chen Ying (zhu7880@ysu.edu.cn)