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Generalized binary spiral zone plates with a single focus obtained by feedforward neural network.

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    Generalized binary spiral zone plates (GBSZPs) designed using artificial neural networks effectively eliminate unwanted foci. This advancement in optical vortex generation offers a single focus for improved optical image processing and quantum computation.

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    Area of Science:

    • Optics and Photonics
    • Artificial Intelligence in Optics

    Background:

    • Traditional spiral zone plates (SZPs) generate optical vortices but suffer from multiple foci, limiting applications.
    • Existing methods to eliminate high-order foci involve binary structures with sinusoidal transmittance, which are not always optimal.

    Purpose of the Study:

    • To propose and design generalized binary spiral zone plates (GBSZPs) capable of producing a single focus.
    • To utilize feedforward neural networks (FNNs) for designing GBSZPs with suppressed high-order foci.

    Main Methods:

    • Concept development of generalized binary spiral zone plates (GBSZPs).
    • Training a feedforward neural network (FNN) to map structural parameters to focus intensities.
    • Predicting GBSZP structural parameters for single-focus generation using the trained FNN.

    Main Results:

    • Simulations and experiments demonstrated that GBSZPs can reduce high-order foci intensities to as low as 0.2% of the first-order focus.
    • The optimized GBSZP structure exhibits a radial transmittance function different from the traditional sinusoidal form.
    • This indicates that non-sinusoidal radial profiles can also effectively eliminate high-order foci.

    Conclusions:

    • The proposed GBSZPs, designed via FNNs, offer a novel approach to generating single-focus optical vortices.
    • The findings provide a new direction for designing binary zone plates with improved performance.
    • This research has potential implications for advancing optical image processing and quantum computation.