Hyperuniform structures possess the ability to confine and drive light, although their fabrication is extremely challenging. Here we demonstrate that speckle patterns obtained by a superposition of randomly arranged sources of Bessel beams can be used to generate hyperunifrom scalar fields. By exploiting laser light tailored with a spatial filter, we experimentally produce (without requiring any computational power) a speckle pattern possessing maxima at locations corresponding to a hyperuniform distribution. By properly filtering out intensity fluctuation from the same speckle pattern, it is possible to retrieve an intensity profile satisfying the hyperuniformity requirements. Our findings are supported by extensive numerical simulations
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Speckle patterns have usually been obtained by using ground glass as random diffusers. Liquid-crysta...
Scattering of coherent light from a disordered material produces a complex distribution of intensity...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
In this dissertation, a methodology for experimentally creating and controlling random light in free...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Speckle patterns have usually been obtained by using ground glass as random diffusers. Liquid-crysta...
Scattering of coherent light from a disordered material produces a complex distribution of intensity...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
Hyperuniform structures possess the ability to confine and drive light, although their fabrication i...
In this dissertation, a methodology for experimentally creating and controlling random light in free...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Bessel beams are non-diffracting light structures, which maintain their spatial features after meter...
Speckle patterns have usually been obtained by using ground glass as random diffusers. Liquid-crysta...
Scattering of coherent light from a disordered material produces a complex distribution of intensity...