High-intensity wave vortices around subwavelength holes: from ocean tides to nanooptics

TL;DR

This paper introduces a new class of high-intensity, subwavelength wave vortices that form around tiny holes in various media, with potential applications across optics, acoustics, and oceanography.

Contribution

It reveals a novel type of wave vortices localized at subwavelength scales around small defects, demonstrated in optical, phononic, and oceanic contexts.

Findings

Vortices appear around subwavelength holes in different wave fields.

Vortex sign controlled by phase interference between waves.

Potential for subwavelength vortex-based applications.

Abstract

Vortices are ubiquitous in nature; they appear in a variety of phenomena ranging from galaxy formation in astrophysics to topological defects in quantum fluids. In particular, wave vortices have attracted enormous attention and found applications in optics, acoustics, electron microscopy, etc. Such vortices carry quantized phase singularities accompanied by zero intensity in the center, and quantum-like orbital angular momentum, with the minimum localization scale of the wavelength. Here we describe a conceptually novel type of wave vortices, which can appear around arbitrarily small `holes' (i.e., excluded areas or defects) in a homogeneous 2D plane. Such vortices are characterized by high intensity and confinement at the edges of the hole and hence subwavelength localization of the angular momentum. We demonstrate the appearance of such vortices in: (i) optical near fields around metallic nanodiscs on a dielectric substrate, (ii) phonon-polariton fields around nanoholes in a polaritonic slab, and (iii) ocean tidal waves around islands of New Zealand and Madagascar. We also propose a simple toy model of the generation of such subwavelength vortices via the interference of a point-dipole source and a plane wave, where the vortex sign is controlled by the mutual phase between these waves. Our findings open avenues for subwavelength vortex/angular-momentum-based applications in various wave fields.