Optical secret sharing with cascaded metasurface holography

TL;DR

This paper presents an all-optical secret sharing method using cascaded metasurface holography, enabling secure, high-fidelity reconstruction of encrypted images and potential applications in spatial multiplexing and optical rulers.

Contribution

It introduces a novel metasurface holography-based secret sharing scheme that allows secure optical reconstruction and shareholder identification.

Findings

Recombination of holographic shares reconstructs the secret with high fidelity.

Single metasurfaces can identify individual shareholders.

Translational sensitivity enables spatial multiplexing and optical ruler applications.

Abstract

Secret sharing is a well-established cryptographic primitive for storing highly sensitive information like encryption keys for encoded data. It describes the problem of splitting a secret into different shares, without revealing any information about the secret to its shareholders. Here, we demonstrate an all-optical solution for secret sharing based on metasurface holography. In our concept, metasurface holograms are used as spatially separable shares that carry an encrypted message in form of a holographic image. Two of these shares can be recombined by bringing them close together. Light passing through this stack of metasurfaces accumulates the phase shift of both holograms and can optically reconstruct the secret with high fidelity. On the other hand, the holograms generated by the single metasurfaces can be used for identifying each shareholder. Furthermore, we demonstrate that the inherent translational alignment sensitivity between the two stacked metasurface holograms can be used for spatial multiplexing, which can be further extended to realize optical rulers.