Observation of Exploding Vortex Beams Generated by Amplitude and Phase All-Dielectric Metasurfaces

Exploding light beams and exploding vortex beams with orbital angular momentum are a family of paraxial beams with cylindrically symmetric intensity profiles that carry finite power and produce singular focal intensities when ideally focused, thus mimicking the behavior of focused plane waves but with finite power. In this work, we have realized them over finite apertures using amplitude and phase metasurfaces and have observed the real-world manifestations of the singularity: boundless growth of the focal peak intensity and resolution power as the aperture radius increases, illustrating the potential of exploding beams to outperform the focusing capabilities of conventional Gaussian and Laguerre-Gaussian beams. The compact footprint of metasurfaces and the precise control enabled by exploding beams on the peak intensity, resolution power, and vortex size make this platform potentially useful in a wide range of applications, from optical tweezers and spanners to microscopy.