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    Area of Science:

    • Optics and photonics
    • Materials science
    • Statistical physics

    Background:

    • Hyperuniform structures exhibit unique properties for light manipulation.
    • Fabricating these structures is a significant experimental challenge.
    • Controlling light at the nanoscale is crucial for advanced optical applications.

    Purpose of the Study:

    • To demonstrate a novel method for generating hyperuniform scalar fields.
    • To overcome the fabrication challenges associated with hyperuniform structures.
    • To explore the use of speckle patterns for creating ordered structures.

    Main Methods:

    • Superposition of randomly arranged Bessel beams to create speckle patterns.
    • Utilizing laser light tailored with a spatial filter.
    • Experimental generation and filtering of speckle patterns to retrieve hyperuniform intensity profiles.
    • Extensive numerical simulations for validation.

    Main Results:

    • Successfully generated speckle patterns with maxima at hyperuniform distributions.
    • Experimentally produced hyperuniform scalar fields without computational power.
    • Demonstrated filtering of intensity fluctuations to satisfy hyperuniformity requirements.
    • Validated findings through comprehensive numerical simulations.

    Conclusions:

    • Speckle patterns from Bessel beams offer a viable route to fabricating hyperuniform structures.
    • This method provides a computationally inexpensive and experimentally accessible approach.
    • The findings pave the way for new applications in light confinement and manipulation.