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Main Authors: Shim, Hyewon, Park, Geonwoong, Yun, Hyunsuk, Ryu, Sunmin, Noh, Yong-Young, Kim, Cheol-Joo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.05645
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author Shim, Hyewon
Park, Geonwoong
Yun, Hyunsuk
Ryu, Sunmin
Noh, Yong-Young
Kim, Cheol-Joo
author_facet Shim, Hyewon
Park, Geonwoong
Yun, Hyunsuk
Ryu, Sunmin
Noh, Yong-Young
Kim, Cheol-Joo
contents Most modern optical display and sensing devices utilize a limited number of spectral units within the visible range, based on human color perception. In contrast, the rapid advancement of machine-based pattern recognition and spectral analysis could facilitate the use of multispectral functional units, yet the challenge of creating complex, high-definition, and reproducible patterns with an increasing number of spectral units limits their widespread application. Here, we report a technique for optical lithography that employs a single-shot exposure to reproduce perovskite films with spatially controlled optical band gaps through light-induced compositional modulations. Luminescent patterns are designed to program correlations between spatial and spectral information, covering the entire visible spectral range. Using this platform, we demonstrate multispectral encoding patterns for encryption and multivariate optical converters for dispersive optics-free spectroscopy with high spectral resolution. The fabrication process is conducted at room temperature and can be extended to other material and device platforms.
format Preprint
id arxiv_https___arxiv_org_abs_2508_05645
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Single-Shot Multispectral Encoding: Advancing Optical Lithography for Encryption and Spectroscopy
Shim, Hyewon
Park, Geonwoong
Yun, Hyunsuk
Ryu, Sunmin
Noh, Yong-Young
Kim, Cheol-Joo
Optics
Materials Science
Most modern optical display and sensing devices utilize a limited number of spectral units within the visible range, based on human color perception. In contrast, the rapid advancement of machine-based pattern recognition and spectral analysis could facilitate the use of multispectral functional units, yet the challenge of creating complex, high-definition, and reproducible patterns with an increasing number of spectral units limits their widespread application. Here, we report a technique for optical lithography that employs a single-shot exposure to reproduce perovskite films with spatially controlled optical band gaps through light-induced compositional modulations. Luminescent patterns are designed to program correlations between spatial and spectral information, covering the entire visible spectral range. Using this platform, we demonstrate multispectral encoding patterns for encryption and multivariate optical converters for dispersive optics-free spectroscopy with high spectral resolution. The fabrication process is conducted at room temperature and can be extended to other material and device platforms.
title Single-Shot Multispectral Encoding: Advancing Optical Lithography for Encryption and Spectroscopy
topic Optics
Materials Science
url https://arxiv.org/abs/2508.05645