Litcius/Paper detail

FAST: Fourier domain adaptive optics simulation tool for bidirectional ground-space optical links through atmospheric turbulence

Ollie J. D. Farley, Matthew J. Townson, James Osborn

2022Optics Express12 citationsDOIOpen Access PDF

Abstract

Free space optical links between the ground and space may be severely degraded by atmospheric turbulence. Adaptive Optics, a technique allowing partial correction of this degradation, is beginning to see use in the field with the potential to achieve more robust and higher bandwidth links. Here we present a simulation tool, FAST, which utilises an analytical Fourier domain Adaptive Optics model developed for astronomy. Using the reciprocity principle, the simulation may be applied either to downlink post-compensated or uplink pre-compensated beams. We show that FAST gives similar results to full end-to-end simulations with wave-optical propagation whilst being between 10 and 200 times faster, enabling the characterisation of optical links with complex Adaptive Optics systems in timely fashion.

Topics & Concepts

Adaptive opticsOpticsFree-space optical communicationPhysicsFourier transformAtmospheric turbulenceBandwidth (computing)Physical opticsTelecommunications linkOptical communicationComputer scienceTurbulenceTelecommunicationsMeteorologyQuantum mechanicsAdaptive optics and wavefront sensingOptical Wireless Communication TechnologiesOptical Coherence Tomography Applications