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Abstract
Wind speed and sonic temperature measured with ultrasonic anemometers are often utilized to estimate the refractive index structure parameter $C_n^2$, a vital parameter for optical propagation. In this work, we compare four methods to estimate $C_n^2$ from $C_T^2$, using the same temporal sonic temperature data streams for two separated sonic anemometers on a homogenous path. Values of $C_n^2$ obtained with these four methods using field trial data are compared to those from a commercial scintillometer and from the differential image motion method using a grid of light sources positioned at the end of a common path. In addition to the comparison between the methods, we also consider appropriate error bars for $C_n^2$ based on sonic temperature considering only the errors from having a finite number of turbulent samples. The Bayesian and power spectral methods were found to give adequate estimates for strong turbulence levels but consistently overestimated the $C_n^2$ for weak turbulence. The nearest neighbors and structure function methods performed well under all turbulence strengths tested.
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