Dr Ryan Griffiths

Demonstration of 24-hour continuous optical turbulence monitoring in a city

Optics Express Optica Publishing Group 33:5 (2025) 10140

Authors:

LF Beesley, R Griffiths, K Hartley, OJD Farley, F Quatresooz, A Rodríguez-Gómez, A Comerón, M Townson, D Alaluf, J Osborn

Exploring atmospheric optical turbulence: observations across zenith angles.

Applied optics 63:16 (2024) E48-E53

Authors:

LF Beesley, J Osborn, R Wilson, OJD Farley, R Griffiths, GD Love

Abstract:

We present measurements of the atmospheric optical turbulence as a function of zenith angle using two identical instruments, Shack-Hartmann Image Motion Monitors (SHIMMs), to measure atmospheric parameters concurrently. One instrument was pointed near zenith, while the other collected data by tracking a single star until it set and thus sampling zenith angles continuously to the horizon. By comparing these measurements, we can attribute changes in the atmospheric parameters to the changing zenith angle rather than variations in local turbulence conditions. The primary purpose of this experiment is to make comparisons between the measurements of the scintillation index, σ I2, and Fried parameter, r ₀, with current theories. In this demonstration, we find that there is a strong agreement between the models and the instrument up until zenith angles of 70^∘, above which model and measurements begin to deviate. We discuss various ways in which limitations in models and our instrument may cause these deviations.

A comparison of next-generation turbulence profiling instruments at Paranal

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 529:1 (2024) 320-330

Authors:

R Griffiths, L Bardou, T Butterley, J Osborn, R Wilson, E Bustos, A Tokovinin, M Le Louarn, A Otarola

A comparison of next-generation turbulence profiling instruments at Paranal

ArXiv 2402.09144 (2024)

Authors:

Ryan Griffiths, Lisa Bardou, Timothy Butterley, James Osborn, Richard Wilson, Edison Bustos, Andrei Tokovinin, Miska Le Louarn, Angel Otarola

Continuous daytime and nighttime forecast of atmospheric optical turbulence from numerical weather prediction models.

Optics express 31:21 (2023) 33850-33872

Authors:

Florian Quatresooz, Ryan Griffiths, Lisa Bardou, Richard Wilson, James Osborn, Danielle Vanhoenacker-Janvier, Claude Oestges

Abstract:

Future satellite-to-ground optical communication systems will benefit from accurate forecasts of atmospheric optical turbulence; namely for site selection, for the routing and the operation of optical links, and for the design of optical communication terminals. This work presents a numerical approach based on the Weather Research and Forecasting software that enables continuous forecast of the refractive index structure parameter, C n2, vertical profiles. Two different C n2 models are presented and compared. One is based on monitoring the turbulent kinetic energy, while the other is a hybrid model using the Tatarskii equation to depict the free atmosphere region, and the Monin-Obukhov similarity theory for describing the boundary layer. The validity of both models is assessed by using thermosonde measurements from the Terrain-induced Rotor Experiment campaign, and from day and night measurements of the coherence length collected during a six-day campaign at Paranal observatory by a Shack-Hartmann Image Motion Monitor. The novelty of this work is the ability of the presented approach to continuously predict optical turbulence both during daytime and nighttime, and its validation with measurements in day and night conditions.