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Autores principales: Wang, Wenli, Hu, Yao, Huang, Qiusheng, Chen, Dan, Hao, Qun
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2605.04963
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author Wang, Wenli
Hu, Yao
Huang, Qiusheng
Chen, Dan
Hao, Qun
author_facet Wang, Wenli
Hu, Yao
Huang, Qiusheng
Chen, Dan
Hao, Qun
contents Tunable directional edge enhancement facilitates the acquisition of distinct morphological features from objects, a capability that plays a vital role in enhancing the reliability and safety of autonomous driving systems. However, building a simple, miniature, and switchable directional edge enhancement system remains an urgent challenge. To address this, we propose a compact spiral metasurface capable of achieving tunable vertical and horizontal edge enhancement imaging without requiring a conventional 4f system, relying instead on a single integrated device. This functionality is realized by engineering the metasurface's spiral phase profile and its polarization-dependent response, where the edge enhancement direction is controlled by varying the incident beam's polarization, enabling switching between vertical and horizontal enhancement modes. Simulations demonstrate the metasurface's capability for switchable edge detection of lane markings and barrier contours. Broadband operation is also confirmed through simulation results. Owing to its compactness, switchable functionality, and broadband performance, the proposed spiral metasurface shows significant potential for applications in optical analog computing and autonomous driving.
format Preprint
id arxiv_https___arxiv_org_abs_2605_04963
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Spiral metasurface enables tunable directional edge enhancement
Wang, Wenli
Hu, Yao
Huang, Qiusheng
Chen, Dan
Hao, Qun
Optics
Tunable directional edge enhancement facilitates the acquisition of distinct morphological features from objects, a capability that plays a vital role in enhancing the reliability and safety of autonomous driving systems. However, building a simple, miniature, and switchable directional edge enhancement system remains an urgent challenge. To address this, we propose a compact spiral metasurface capable of achieving tunable vertical and horizontal edge enhancement imaging without requiring a conventional 4f system, relying instead on a single integrated device. This functionality is realized by engineering the metasurface's spiral phase profile and its polarization-dependent response, where the edge enhancement direction is controlled by varying the incident beam's polarization, enabling switching between vertical and horizontal enhancement modes. Simulations demonstrate the metasurface's capability for switchable edge detection of lane markings and barrier contours. Broadband operation is also confirmed through simulation results. Owing to its compactness, switchable functionality, and broadband performance, the proposed spiral metasurface shows significant potential for applications in optical analog computing and autonomous driving.
title Spiral metasurface enables tunable directional edge enhancement
topic Optics
url https://arxiv.org/abs/2605.04963