English

Efficient vortex generation in sub-wavelength epsilon-near-zero slabs

Optics 2017-03-15 v1

Abstract

We show that a homogeneous and isotropic slab, illuminated by a circularly polarized beam with no topological charge, produces vortices of order two in the opposite circularly polarized components of the reflected and transmitted fields, as a consequence of the difference between transverse magnetic and transverse electric dynamics. In the epsilon-near-zero regime, we find that vortex generation is remarkably efficient in sub-wavelength thick slabs up to the paraxial regime. This physically stems from the fact that a vacuum paraxial field can excite a nonparaxial field inside an epsilon-near-zero slab since it hosts slowly varying fields over physically large portion of the bulk. Our theoretical predictions indicate that epsilon-near-zero media hold great potential as nanophotonic elements for manipulating the angular momentum of the radiation, since they are available without resorting to complicated micro/nano fabrication processes and can operate even at very small (ultraviolet) wavelengths.

Keywords

Cite

@article{arxiv.1610.01466,
  title  = {Efficient vortex generation in sub-wavelength epsilon-near-zero slabs},
  author = {Alessandro Ciattoni and Andrea Marini and Carlo Rizza},
  journal= {arXiv preprint arXiv:1610.01466},
  year   = {2017}
}
R2 v1 2026-06-22T16:11:40.631Z