计算机科学
全息术
控制重构
加密
可扩展性
可重构性
极化(电化学)
相(物质)
图像质量
人工神经网络
计算全息
可视密码
可用性
解码方法
人工智能
实施
现场可编程门阵列
计算机硬件
编码(社会科学)
秘密分享
信息隐藏
硅上液晶
光学
钥匙(锁)
深层神经网络
作者
Yijun Zou,Min Huang,Ruichen Li,K Wang,Zheng Zhen,Bin Zheng
标识
DOI:10.1021/acsami.6c03122
摘要
Polarization-assisted visual secret sharing (VSS), based on metasurfaces, provides a promising route toward secure and computation-free optical encryption by distributing secret information into orthogonal polarization channels. However, existing implementations are predominantly limited to passive metasurfaces, which fundamentally constrain dynamic reconfiguration and multisecret switching. Here, we present a reconfigurable dual-polarization metasurface platform, enabled by a deep hologram prior neural network, for physically constrained phase hologram optimization. By adopting a simplified 2 × 2 supercell architecture, the proposed tunable meta-unit achieves independent and stable phase control for both polarizations, with reduced system complexity. The deep hologram prior network further enables efficient hologram synthesis under different control complexities and improves the imaging quality by about 35% compared to the weighted Gerchberg-Saxton method. We experimentally demonstrate dynamic-polarization-assisted VSS using a reconfigurable metasurface prototype operating at 10 GHz, with results in good agreement with theoretical predictions. This work establishes a scalable and flexible framework for dynamic optical encryption and may find applications in secure communication, information authentication, and reconfigurable photonic security systems.
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