Optimal design of small aperture optical terminals for free-space links

TL;DR

This paper introduces an optimized design for small aperture optical terminals that enhance free-space laser communication by combining turbulence suppression, precise tracking, and efficient fibre coupling, suitable for terrestrial kilometer-scale links.

Contribution

It provides a generalized, low-complexity design framework for small aperture optical terminals with turbulence mitigation and optimized parameters based on analytical and numerical methods.

Findings

Optimized tip/tilt correction bandwidth and range.

Derived aperture size and focal length for specific links.

Enhanced power throughput and reduced scintillation in fibre.

Abstract

We present the generalised design of low-complexity, small aperture optical terminals intended for kilometre-scale, terrestrial, free-space laser links between fixed and dynamic targets. The design features single-mode fibre coupling of the free-space beam, assisted by a fast-steering, tip/tilt mirror that enables first-order turbulence suppression and fine target tracking. The total power throughput over the free-space link and the scintillation index in fibre are optimised. The optimal tip/tilt correction bandwidth and range, aperture size, and focal length for a given link are derived using analytical atmospheric turbulence modelling and numerical simulations.