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Optical interference control for selectively suppressing higher-order modes in all-dielectric tri-layered structures for reflective RGB colors

Authors
Kim, DohyunJung, IncheolJu, SeongcheolKang, CheolhunLim, DonggyuLee, MinbaekOk, Jong G.Park, Hui JoonLee, Kyu-Tae
Issue Date
Mar-2025
Publisher
Optical Society of America
Citation
Optics Letters, v.50, no.6, pp 1779 - 1782
Pages
4
Indexed
SCIE
SCOPUS
Journal Title
Optics Letters
Volume
50
Number
6
Start Page
1779
End Page
1782
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207087
DOI
10.1364/OL.554347
ISSN
0146-9592
1539-4794
Abstract
We present a method to selectively suppress unwanted higher-order resonances in all-dielectric tri-layer structural color filters, achieving reflective red (R), green (G), and blue (B) colors through controlled optical interference. By applying a gradient-based optimization technique, we fine-tune the designs to improve color purity by eliminating undesired resonances outside the passband of the tri-layer structure. The filters are composed of a low-refractive-index (LRI) layer sandwiched between two high-refractive-index (HRI) layers. Higher-order modes in the HRI layers and the fundamental mode in the LRI layer are exploited to generate B and G colors. For the R color, the reverse configuration is used: the HRI layers employ the fundamental mode, and the LRI layer operates in a higher-order mode, which introduces an unwanted peak at λ = 450 nm, significantly affecting color purity. To address this, we reduce the LRI thickness to half of the quarter-wave thickness (QWT) and increase the HRI thickness to a quarter of the QWT, shifting interference from constructive to destructive at λ = 450 nm while preserving constructive interference at λ = 642 nm. This effectively suppresses the higher-order mode, resulting in a pure R color. Our study provides valuable insights into the optical design of multilayer thin-film structures, with potential applications in reflective displays, image sensors, and colored solar cells.
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