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    Area of Science:

    • Optics and Photonics
    • Information Technology
    • Materials Science

    Background:

    • Conventional holograms suffer from diffraction, limiting fidelity and detection.
    • Existing methods for diffraction-free beams are complex and lack Fourier transform capabilities.
    • Holography has potential in data storage, encryption, AI, and 3D displays.

    Purpose of the Study:

    • To propose a novel approach for diffraction-free holographic displays using an extended depth-of-focus (EDOF) flat lens.
    • To demonstrate the capability of maintaining holographic image fidelity over extended distances and through scattering media.
    • To explore the use of orbital angular momentum (OAM) for encoding information in diffraction-free beams.

    Main Methods:

    • Utilized an inverse-designed EDOF lens with a 20 mm depth-of-focus, significantly exceeding conventional lenses.
    • Implemented orbital angular momentum (OAM) modes with topological charges from -8 to 8 for holographic image encoding.
    • Experimentally validated diffraction-free beam self-healing after occlusion and information preservation through dense fog.

    Main Results:

    • Achieved a depth-of-focus 14 times greater than conventional lenses, creating an extended spatial-frequency domain (ESFD).
    • Demonstrated selectable, diffraction-free OAM-encoded holographic images on a single device.
    • Confirmed self-healing properties of OAM beams and their resilience to scattering in dense fog, preserving information where conventional beams failed.

    Conclusions:

    • The EDOF lens approach enables robust, diffraction-free holographic displays with extended depth-of-field.
    • OAM-encoded diffraction-free beams offer a promising solution for high-security optical encryption and advanced optical communication.
    • The technology shows potential for applications like optical tweezers and resilient data transmission in challenging environments.