Optoelectronics Letters, Volume. 20, Issue 4, 193(2024)
A high-performance multi-wavelength optical switch based on multiple Fano resonances in an all-dielectric metastructure
[1] [1] CHEN Y K, WANG Y. Electrically tunable toroidal Fano resonances of symmetry-breaking dielectric metasurfaces using graphene in the infrared region[J].Journal of optics, 2022, 24(4): 044012.
[2] [2] JIANG H, HAN Z H. Spectral stability of bound state in the continuum resonances due to thermal effect and the application as efficient thermo-optic modulators[J]. Optics communications, 2022, 515: 128216.
[3] [3] HAN Z H, CAI Y J. All-optical self-switching with ultralow incident laser intensity assisted by a bound state in the continuum[J]. Optics letters, 2021, 46(3):524-527.
[4] [4] XING J J, LI H, YU S L, et al. Multiple Fano resonances driven by bound states in the continuum in an all-dielectric nanoarrays system[J]. AIP advances, 2023,13(3): 035212.
[5] [5] YE Y C, YU S L, LI H, et al. Triple Fano resonances metasurface and its extension for multi-channel ultra-narrow band absorber[J]. Results in physics, 2022,42: 106025.
[6] [6] ZHANG Y B, LIU W W, LI Z C, et al.High-quality-factor multiple Fano resonances for refractive index sensing[J]. Optics letters, 2018, 43(8):1842-1845.
[7] [7] FAN K, SHADRIVOV I V, PADILLA W J. Dynamic bound states in the continuum[J]. Optica, 2019, 6(2):169-173.
[8] [8] GARMON S, NOBA K, ORDONEZ G, et al.Non-Markovian dynamics revealed at a bound state in the continuum[J]. Physical review A, 2019, 99(1):010102.
[9] [9] ZHAO H N, FAN X Y, WEI X, et al. All-dielectric metastructure based on multiple Fano resonances with high sensitivity[J]. Optics communications, 2023, 530:129193.
[10] [10] YU S L, LI H, WANG Y S, et al. Multiple Fano resonance excitation of all-dielectric nanoholes cuboid arrays in near infrared region[J]. Results in physics, 2021,28: 104569.
[11] [11] YANG L, YU S L, LI H, et al. Multiple Fano resonances excitation on all-dielectric nanohole arrays metasurfaces[J]. Optics express, 2021, 29(10):14905-14916.
[12] [12] BI L P, FAN X Y, LI C C, et al. Multiple Fano resonances on the metastructure of all-dielectric nanopore arrays excited by breaking two-different-dimensional symmetries[J]. Heliyon, 2023, 9(1): e12990.
[13] [13] WANG D D, FAN X Y, FANG W J, et al. Excitation of multiple Fano resonances on all-dielectric nanoparticle arrays[J]. Optics express, 2023, 31(6): 10805-10819.
[14] [14] SHI Y, YU S L, LI H, et al. Ultra-high quality factor resonances in a pinwheel-shaped all-dielectric metasurface based on bound states in the continuum[J]. IEEE photonics journal, 2023, 15(2): 1-7.
[15] [15] FAN H J, LI J, SUN Y H, et al. Asymmetric cross metasurfaces with multiple resonances governed by bound states in the continuum[J]. Materials, 2023, 16(6): 2227.
[16] [16] LI H, YU S L, YANG L, et al. High Q-factor multi-Fano resonances in all-dielectric double square hollow metamaterials[J]. Optics and laser technology,2021, 140: 107072.
[17] [17] WANG Y S, HU Z H, ZHAO T G, et al. High Q-factor Fano resonances on permittivity-asymmetric dielectric meta-surfaces[C]//Proceedings of Nanophotonics and Micro/Nano Optics VII, October 10-12, 2021, Nantong,China. New York: SPIE, 2021, 11903: 139-145.
[18] [18] JIANG X Q, BAO J L, SUN X D. Multiwavelength optical switch based on controlling the Fermi energy of graphene[J]. Physical review applied, 2018, 9(4):044026.
[19] [19] PALIK E D. Handbook of optical constants of solids[M]. New York: Academic Press, 1985: 547-569.
[20] [20] WANG W D, ZHENG L, LIU Y J, et al.High-quality-factor multiple Fano resonances in free-standing all-dielectric nanodisk dimers for applications[J]. Optik, 2020, 207: 163815.
[21] [21] XU L, ZANGENEH K K, HUANG L J, et al. Dynamic nonlinear image tuning through magnetic dipole quasi-BIC ultrathin resonators[J]. Advanced science,2019, 6(15): 1802119.
[22] [22] LI J, MA T. Magnetic toroidal dipole resonances with high quality factor in all-dielectric metamaterial[J]. Optics communications, 2022, 507: 127621.
[23] [23] NIU Q L, ZHU Y Q. Research on control of optical switch based on tetramer structure[J]. Transducer and microsystem technologies, 2023, 42(3): 40-44.
[24] [24] ZHANG L, DONG Z G, WANG Y M, et al. Dynamically configurable hybridization of plasmon modes in nanoring dimer arrays[J]. Nanoscale, 2015, 7(28):12018-12022.
[25] [25] HE J N, WANG J Q, DING P, et al. Optical switching based on polarization tunable plasmon-induced transparency in disk/rod hybrid metasurfaces[J]. Plasmonics,2015, 10: 1115-1121.
Get Citation
Copy Citation Text
CAO Shuangshuang, FAN Xinye, FANG Wenjing, CHEN Huawei, BAI Chenglin, TONG Cunzhu. A high-performance multi-wavelength optical switch based on multiple Fano resonances in an all-dielectric metastructure[J]. Optoelectronics Letters, 2024, 20(4): 193
Received: Jul. 28, 2023
Accepted: Oct. 18, 2023
Published Online: Aug. 9, 2024
The Author Email: Xinye FAN (fanxinye@lcu.edu.cn)