Achromatic orbital angular momentum generator
Abstract
We describe a novel approach for generating light beams that carry orbital angular momentum (OAM) by means of total internal reflection in an isotropic medium. A continuous space-varying cylindrically symmetric reflector, in the form of \textit{two glued hollow axicons}, is used to introduce a nonuniform rotation of polarisation into a linearly polarised input beam. This device acts as a full spin-to-orbital angular momentum convertor. It functions by switching the helicity of the incoming beam's polarisation, and by conservation of total angular momentum thereby generates a well-defined value of OAM. Our device is broadband, since the phase shift due to total internal reflection is nearly independent of wavelength. We verify the broad-band behaviour by measuring the conversion efficiency of the device for three different wavelengths corresponding to the RGB colours, red, green and blue. An average conversion efficiency of for these three different wavelengths is observed. %, which confirms its wavelength independence. This device may be used to generate a white vector vortex beam, as we show, and may find applications in imaging from micro- to astronomical systems where a white vortex beam is needed.
Cite
@article{arxiv.1407.0065,
title = {Achromatic orbital angular momentum generator},
author = {Frédéric Bouchard and Harjaspreet Mand and Mohammad Mirhosseini and Ebrahim Karimi and Robert W. Boyd},
journal= {arXiv preprint arXiv:1407.0065},
year = {2015}
}
Comments
15 pages, 6 figures and 1 table