Experimental optical encryption with full complex modulation.

Applied optics Pub Date : 2024-05-20 DOI:10.1364/AO.518364
Juan Andrés González-Moncada, Alejandro Velez-Zea, John Fredy Barrera-Ramírez
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引用次数: 0

Abstract

We present, to our knowledge, a novel method to achieve experimental encryption using double random phase encoding with full complex modulation and a single phase-only spatial light modulator. Our approach uses double phase encoding to generate phase-only holograms containing complex-valued input planes for a joint transform correlator (JTC) cryptosystem. This approach enables users to independently manipulate both the phase and amplitude of the cryptographic keys and objects, thereby significantly enhancing the versatility of the optical cryptosystem. We validate the capabilities of our proposed scheme by generating optimized random phase masks and using them to experimentally encrypt various grayscale and binary objects. The experimental complex modulation obtained with the system detailed in this work, in conjunction with optimized random phase masks, results in an enhancement in the quality of the decrypted objects during reconstruction. Both numerical simulations and experimental findings corroborate the effectiveness of our proposal.

全复调制光学加密实验。
据我们所知,我们提出了一种新方法,利用全复调制双随机相位编码和单相位空间光调制器实现实验加密。我们的方法使用双相位编码生成包含复值输入平面的纯相位全息图,用于联合变换相关器(JTC)密码系统。这种方法使用户能够独立操纵加密密钥和对象的相位和振幅,从而大大提高了光密码系统的多功能性。我们通过生成优化的随机相位掩码,并用它们对各种灰度和二进制对象进行实验加密,验证了我们提出的方案的能力。本作品中详细介绍的系统与优化的随机相位掩码结合使用所获得的实验复杂调制,在重构过程中提高了解密对象的质量。数值模拟和实验结果都证实了我们建议的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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