Parametric control of a diffractive axicon beam rider

A laser beam rider is a large-scale optical structure designed so that it is attracted toward the optical axis, while also affording forward propulsion via radiation pressure along the beam path. Such structures form the basis of laser-driven light sails. Experimental measurements are described whereby a thin diffractive axicon film is shown to exhibit a natural restoring force when its axis is displaced from the optical axis. This effect is attributed to the optical momentum change of diffracted light. Whereas continuous illumination supports harmonic motion, modulated illumination is shown to support both parametric gain and parametric damping. The 12.7 mu m period photopolymer axicon grating was suspended in a vacuum torsion oscillator and irradiated with a 1.5 W near-infrared laser modulated at a period of 38 s. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.

Automated summary

The study discusses the principles and experimental measurements of a laser beam rider, focusing on the characteristics of a diffractive axicon film and the effects of optical momentum change. Experimental results show that continuous illumination can support harmonic motion, while modulated illumination can support parametric gain and damping.