English

Optical vortex generation from molecular chromophore arrays

Optics 2013-10-14 v2

Abstract

The generation of light endowed with orbital angular momentum, frequently termed optical vortex light, is commonly achieved by passing a conventional beam through suitably constructed optical elements. This Letter shows that the necessary phase structure for vortex propagation can be directly produced through the creation of twisted light from the vacuum. The mechanism is based on optical emission from a family of chromophore nano-arrays that satisfy specific geometric and symmetry constraints. Each such array can support pairs of electronically delocalized doubly degenerate excitons whose azimuthal phase progression is responsible for the helical wave-front of the emitted radiation. The exciton symmetry dictates the maximum magnitude of topological charge; detailed analysis secures the conditions necessary to deliver optical vortices of arbitrary topological charge.

Keywords

Cite

@article{arxiv.1305.0422,
  title  = {Optical vortex generation from molecular chromophore arrays},
  author = {Mathew D. Williams and Matt M. Coles and Kamel Saadi and David S. Bradshaw and David L. Andrews},
  journal= {arXiv preprint arXiv:1305.0422},
  year   = {2013}
}

Comments

Main Article: 4 Pages. Supplementary Material: 3 Pages

R2 v1 2026-06-22T00:10:09.420Z