Orbital angular momentum (OAM) multiplexing holography offers unprecedented capacity for optical encryption. We propose a petal OAM holographic scheme for two-dimensional optical encryption by constructing superposition modes of ±ℓ OAM states with phase φ, uniquely encoding dual degrees of freedom (DoFs, ℓ and φ) as independent multiplexing channels. The strong mode selectivity enables multi-image integration into a single hologram, doubling information capacity while enhancing security. Simulations and experiments validate petal OAM’s preservation, selective addressing, and multiplexing capability. A 2D high-security encryption platform is experimentally demonstrated, providing an anti-counterfeiting solution with multi-parameter optical encryption. This work pioneers OAM DoF synergy for next-generation holographic security systems.
Restricted Access
You are currently viewing a placeholder content from Vimeo. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from YouTube. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from Facebook. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from Google Maps. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from Google Maps. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from Mapbox. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from OpenStreetMap. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from X. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More Information