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2 October 2024 Angle-independent micro-OLED cavity via phase-compensating plasmonic resonant metasurface
Yeonah Kim, Seung-Yeol Lee
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Proceedings Volume 13109, Metamaterials, Metadevices, and Metasystems 2024; 131090R (2024) https://doi.org/10.1117/12.3030919
Event: Nanoscience + Engineering, 2024, San Diego, California, United States
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Abstract
This study focuses on optimizing a Metal-Insulator-Metal (MIM) OLED structure as a plasmonic absorber for advanced micro-display applications. The MIM structure enhances the localized electromagnetic field and improves stability against refractive index variations in the planarization layer during fabrication. The optimization process involved 2D Rigorous Coupled-Wave Analysis (RCWA) simulation to identify resonant modes and parameter dependencies in nanostripe metasurfaces. Additionally, angle-resolved simulations were conducted to observe the spectra response under varying incident angles, demonstrating superior angular sensitivity at zero degrees compared to traditional cavity structures. Results show the MIM structure's superior stability and performance, maintaining consistent resonance conditions despite variations in the planarization layer. This makes the MIM-based approach ideal for high-precision micro-OLED applications.
(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.
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Yeonah Kim and Seung-Yeol Lee "Angle-independent micro-OLED cavity via phase-compensating plasmonic resonant metasurface", Proc. SPIE 13109, Metamaterials, Metadevices, and Metasystems 2024, 131090R (2 October 2024); https://doi.org/10.1117/12.3030919
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KEYWORDS
Organic light emitting diodes
Spectral response
Light emitting diodes
RGB color model
Plasmonics
Reflection
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