English

High Helicity Vortex Conversion in a Rubidium Vapor

Quantum Physics 2018-06-13 v1

Abstract

The orbital angular momentum (OAM) of light is a quantity explored for communication and quantum technology, its key strength being a wide set of values offering a large basis for q-working. In this context we have studied the vortex conversion from a red optical vortex to a blue one, for OAMs ranging -30 to +30. The conversion is realized in a rubidium vapor, via the 5S1/25D5/25S_{1/2}-5D_{5/2} 85Rb^{85} Rb two-photon transition done with a Gaussian beam at 780 nm plus a Laguerre-Gaussian beam at 776 nm with the OAM \ell, producing a radiation at 420 nm. With co-propagating input beams, we demonstrate a conversion from red to blue for high-\ell input vortices. We show that the output blue vortex respects the azimuthal phase matching, has a size determined by the product of the input beams and a power decreasing with \ell in agreement with their overlap. Its propagation indicates that the generated blue wave is a nearly pure Laguerre-Gaussian mode. The vortex converter thus permits a correct OAM transmission.

Keywords

Cite

@article{arxiv.1803.07182,
  title  = {High Helicity Vortex Conversion in a Rubidium Vapor},
  author = {Aurélien Chopinaud and Marion Jacquey and Bruno Viaris de Lesegno and Laurence Pruvost},
  journal= {arXiv preprint arXiv:1803.07182},
  year   = {2018}
}
R2 v1 2026-06-23T00:58:13.962Z