Ray-optical Poincaré sphere for structured Gaussian beams

Miguel A. Alonso, Mark Dennis

Research output: Contribution to journalArticlepeer-review

32 Citations (Scopus)


A general family of scalar structured Gaussian beams naturally emerges from a consideration of families of rays. These ray families, with the property that their transverse profile is invariant upon propagation (except for a global rescaling), have two parameters, the first giving a position on an ellipse naturally represented by a point on a ray-family analog of the Poincaré sphere (familiar from polarization optics), and the other determining the position of a curve
traced out on this Poincaré sphere. This construction naturally accounts for thewell-known families of Gaussian beams, including Hermite-Gauss, Laguerre-Gauss and Generalized Hermite-Laguerre-Gauss beams, but is farmore general, opening the door for the design of a large variety of propagation-invariant beams. This ray-based description also provides a simple explanation for many aspects of these beams, such as “self-healing” and the Gouy and Pancharatnam-Berry phases. Further, through a conformal mapping between a projection of the Poincaré sphere and the physical space of the transverse plane of a Gaussian beam, the otherwise hidden geometric rules behind the beam’s intensity distribution are revealed. While the treatment is based on rays, a simple prescription is given for recovering exact solutions to the paraxial wave equation corresponding to these rays.
Original languageEnglish
Pages (from-to)476-486
Issue number4
Publication statusPublished - 20 Apr 2017

Bibliographical note

arXiv: 1612.06824


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