Characterization of CCTRC Waveguide and Measurement of Vitamin C Concentration
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Barnes WL, Dereux A, Ebbesen TW (2003) Surface plasmon subwavelength optics. Nature 424(6950):824–830
Xiaoyu Z, Fengxiang W, Ying G, Wenjuan W, Luo Yongfeng Wu, Wen HJ, Ziqing J, Ziqiang P, Genghua H, Rong S (2023) Research on linear array scanning lidar and photon signal processing technology based on InGaAs single-photon detector[J]. Infrared and Laser Engineering 52(3):20220474
Miroshnichenko AE, Flach S, Kivshar YS (2010) Fano resonances in nanoscale structures. Rev Mod Phys 82(3):2257
Butt MA, Kazanskiy NL, Khonina SN (2020) Highly integrated plasmonic sensor design for the simultaneous detection of multiple analytes. Curr Appl Phys 20(11):1274–1280
Zhu J, Li N (2020) MIM waveguide structure consisting of a semicircular resonant cavity coupled with a key-shaped resonant cavity. Opt Express 28(14):19978–19987
Zhang Z, Wang J, Zhao Y (2011) Numerical investigation of a branch-shaped filter based on metal-insulator-metal waveguide. Plasmonics 6:773–778
Zheng Y, Yi Z, Liu Li, Xianwen Wu, Liu H, Li G, Zeng L, Li H, Pinghui Wu (2023) Numerical simulation of efficient solar absorbers and thermal emitters based on multilayer nanodisk arrays. Appl Therm Eng 230:120841
Fuyan Wu, Shi P, Yi Z, Li H, Yi Y (2023) Ultra-broadband solar absorber and high-efficiency thermal emitter from UV to mid-infrared spectrum. Micromachines 14(5):985
Lai R, Shi P, Yi Z, Li H, Yi Y (2023) Triple-band surface plasmon resonance metamaterial absorber based on open-ended prohibited sign type monolayer graphene. Micromachines 14(5):953
Zhao X, Zhang Z, Yan S (2017) Tunable Fano resonance in asymmetric MIM waveguide structure. Sensors 17(7):1494
Yang Q, Liu X, Guo F (2020) Multiple Fano resonance in MIM waveguide system with cross-shaped cavity. Optik 220:165163
Tang Y, Zhang Z, Wang R (2017) Refractive index sensor based on Fano resonances in metal-insulator-metal waveguides coupled with resonators. Sensors 17(4):784
Haslinger MJ, Sivun D, Pöhl H (2020) Plasmon-assisted direction-and polarization-sensitive organic thin-film detector. Nanomaterials 10(9):1866
Zhu J, Jin G (2021) Detecting the temperature of ethanol based on Fano resonance spectra obtained using a metal-insulator-metal waveguide with SiO 2 branches. Opt Mater Express 11(9):2787–2799
Rahmani Z, Rezaee N (2019) The reflection and absorption characteristics of one-dimensional ternary plasma photonic crystals irradiated by TE and TM waves. Optik 184:134–141
Yan J, Liu P, Lin Z (2015) Directional Fano resonance in a silicon nanosphere dimer. ACS Nano 9(3):2968–2980
Fano U (1961) Effects of configuration interaction on intensities and phase shifts. Phys Rev 124(6):1866
Chen L, Liu Y, Yu Z (2016) Numerical analysis of a near-infrared plasmonic refractive index sensor with high figure of merit based on a fillet cavity. Opt Express 24(9):9975–9983
Wu T, Liu Y, Yu Z (2014) The sensing characteristics of plasmonic waveguide with a ring resonator. Opt Express 22(7):7669–7677
Zhu J, Jin G (2022) Performance enhancement of solar cells based on high photoelectric conversion efficiency of h-BN and metal nanoparticles. Opt Express 30(8):13469–13480
Pang S, Huo Y, Xie Y (2016) Fano resonance in MIM waveguide structure with oblique rectangular cavity and its application in sensor. Opt Commun 381:409–413
Kim KY, Cho YK, Tae HS (2006) Light transmission along dispersive plasmonic gap and its subwavelength guidance characteristics. Opt Express 4(1):320–330
Chen J, Sun C, Gong Q (2014) Fano resonances in a single defect nanocavity coupled with a plasmonic waveguide. Opt Lett 39(1):52–55
Xie C (2021) Refractive index sensing based on multiple Fano resonances in a split-ring cavity-coupled MIM waveguide. Photonics 8(11):472
Li P, Liu J, Huang P (2020) Tunable fiber-tip lens based on thermo-optic effect of amorphous silicon. Chin Opt Lett 18(3):030602
Montesinos-Ballester M, Liu Q, Vakarin V (2019) On-chip Fourier-transform spectrometer based on spatial heterodyning tuned by thermo-optic effect. Sci Rep 9(1):14633
Bekshaev AY, Angelsky OV, Zheng J (2021) Microscopic analysis of the energy, momentum, and spin distributions in a surface plasmon-polariton wave. Opt Mater Express 11(7):2165–2191
Sannomiya T, Konecna A, Matsukata T (2019) Cathodoluminescence phase extraction of the coupling between nanoparticles and surface plasmon polaritons. Nano Lett 20(1):592–598
Zhu J, Wang G (2019) Sense high refractive index sensitivity with Bragg grating and MIM nanocavity. Results Phys 15:102763
Nehl CL, Liao H, Hafner JH (2006) Optical properties of star-shaped gold nanoparticles. Nano Lett 6(4):683–688
Xiao G, Xu Y, Yang H (2021) High sensitivity plasmonic sensor based on Fano resonance with inverted U-shaped resonator. Sensors 21(4):1164
Wang Q, Ouyang Z, Sun Y (2018) Tunable nanosensor based on Fano resonances created by changing the deviation angle of the metal core in a plasmonic cavity. Sensors 18(4):1026
Liwen S, Chonglin G, Qiantao C, Lin H, Zhongan Z, Longfei L, Shan Q, Aiguo Z, Wei Y, Hui J, Zhihui Z, Jiaqing L, Zhenxu B, Zhiming L (2023) Wide-range external-cavity tunable semiconductor laser with mode-hopping free[J]. Infrared Laser Eng 52(8):20230374
El Haffar R, Farkhsi A, Mahboub O (2020) Optical properties of MIM plasmonic waveguide with an elliptical cavity resonator. Appl Phys A 126:1–10
Zhu J, Yin J (2022) Optical method for detecting the concentration of sucrose based on plasmonic nanostructures. Carbon Lett 1–9
Xu Q, Zhu J (2022) Glycerol concentration sensor based on the MIM waveguide structure. Frontiers in Physics 10:1089
Kim K, Bae ON, Koh SH (2015) High-dose vitamin C injection to cancer patients may promote thrombosis through procoagulant activation of erythrocytes. Toxicol Sci 147(2):350–359
Lukosz W, Pliska P (1991) Determination of thickness and refractive index of SiO2 films on silicon wafers using an Abbe refractometer. Opt Commun 85(5–6):381–384