2019
DOI: 10.1186/s41476-019-0115-2
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Nano-structured transmissive spectral filter matrix based on guided-mode resonances

Abstract: Background: In this work, a nanostructured guided-mode resonance filter matrix with high transmission efficiency and narrow bandwidth is demonstrated. The developed nano-filter arrays have various usages, e.g., combined with the CMOS image sensors to realize compact spectrometers for biomedical sensing applications. Methods: In order to optimize the filter performance, the spectral responses of filters with different structural parameters are carefully studied based on the variable-controlling method. A qualit… Show more

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Cited by 9 publications
(4 citation statements)
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“…et al. : 26 max[nb,ns]|nbsinθinciλΛ|<nw,where nb is the buffer layer refractive index, ns is the substrate refractive index, nw is the refractive index of waveguide layer, and θinc is the angle of incident light. We take the central wavelength at 555.6 nm as an example for verification, and the range of wavelengths obtained from the calculation is 511 to 710.15 nm, which is consistent with the simulation results.…”
Section: Device Structure and Simulation Resultsmentioning
confidence: 99%
See 2 more Smart Citations
“…et al. : 26 max[nb,ns]|nbsinθinciλΛ|<nw,where nb is the buffer layer refractive index, ns is the substrate refractive index, nw is the refractive index of waveguide layer, and θinc is the angle of incident light. We take the central wavelength at 555.6 nm as an example for verification, and the range of wavelengths obtained from the calculation is 511 to 710.15 nm, which is consistent with the simulation results.…”
Section: Device Structure and Simulation Resultsmentioning
confidence: 99%
“…In 2019, a narrowband transmission-type filter that is continuously tunable from the visible to the infrared range was reported. 26 However, the transmittance at the center wavelength is only 70%, with a half-width of 25 nm, and the transmittance of the sidebands is ∼30%. In 2020, a filter integrated on a silicon substrate was reported.…”
Section: Introductionmentioning
confidence: 99%
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“…Wenze Wu et al designed a GMR matrix-based nanostructured transmission spectroscopy filter using a guided-mode resonance-type filter consisting of a metal grating, a SiO2 buffer layer, and a high-emissivity waveguide layer. They employed the surface plasmon excitation mode of 2 the metal grating, which was excited and coupled to the guided mode to achieve a low sideband sharp transmission peak of anomalous resonance, which was accompanied by a FWHM of 25 nm and a transmittance of only 70%, although his sideband was below 20% [30]. Guangyu Sun et al presented a tunable polarization-independent narrowband GMR filter that employed a 2D subwavelength aluminum grating in conjunction with a polymer-dispersed liquid crystal layer.…”
Section: Introductionmentioning
confidence: 99%