Experimental Demonstration of Velocimetry by Actively Stabilized Coherent Optical Transfer

B.P. Dix-Matthews, D.R. Gozzard, S.M. Walsh, A.S. McCann, S.F.E. Karpathakis, A.M. Frost, C.T. Gravestock, and S.W. Schediwy. Experimental demonstration of velocimetry by actively stabilised coherent optical transfer. Physical Review Applied 19 (2023) 054018.

Abstract

We report on the development of a system called velocimetry by actively stabilized coherent optical transfer (VASCOT) that uses active optical phase tracking to measure the in-line velocity of retroreflecting targets with narrow-band photodetection. VASCOT is experimentally demonstrated over a 584-m atmospheric link to a corner-cube retroreflector (CCR) on an airborne drone. The in-line target-velocity measurement achieves residual uncertainties below 2nm s−1 within 5 s of averaging. Cycle-slip-free phase tracking over the full 3-min experiment allows the relative target range to be tracked with a one-standard-deviation uncertainty of 39.5 nm. VASCOT also provides an absolute target-range measurement with a statistical error of ±13.7mm, which agrees with an independent Global-Positioning-System- (GPS) derived range measurement to within the GPS uncertainty.