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Spatial multiplexing for robust optical vortex transmission with optical nonlinearity.

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    We developed a new method called VOILA to transmit multiple optical vortices simultaneously. This approach effectively decodes topological charges (TCs) for enhanced optical communication and structured light applications.

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    Area of Science:

    • Optics
    • Information Technology
    • Quantum Information Science

    Background:

    • Optical vortex beams possess unique phase singularities characterized by topological charge (TC).
    • Evaluating TCs after beam propagation is challenging, limiting applications in optical communication and manipulation.
    • Existing methods struggle with simultaneous transmission and decoding of multiple vortices, especially under nonlinear conditions.

    Purpose of the Study:

    • To introduce a novel spatial multiplexing approach, Vortices in Lateral Arrays (VOILA), for simultaneous transmission of multiple optical vortices.
    • To enable robust decoding of topological charges (TCs) even in the presence of optical nonlinearities.
    • To enhance the single-shot bandwidth and fractional TC recognition capabilities for high-bandwidth optical communication.

    Main Methods:

    • Development of the Vortices in Lateral Arrays (VOILA) spatial multiplexing technique.
    • Leveraging advanced machine learning techniques for decoding topological charges (TCs).
    • Experimental simulation of strong optical nonlinearities to test system robustness.

    Main Results:

    • VOILA enables simultaneous transmission of multiple vortices in a lateral array.
    • Effective decoding of TCs achieved even under strong optical nonlinearities.
    • Substantial improvements in single-shot bandwidth, orders of magnitude higher than single-vortex schemes.
    • Precise fractional TC recognition demonstrated in both linear and nonlinear regimes.

    Conclusions:

    • VOILA offers a powerful solution for overcoming challenges in evaluating topological charges (TCs) after beam propagation.
    • The approach significantly enhances bandwidth and recognition capabilities for optical communication systems.
    • VOILA promises transformative contributions to optical information processing and structured light research.