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Understanding the atmospheric turbulence structure parameter, Cn2, in the littoral regime

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Abstract
Understanding optical propagation through atmospheric turbulence is a highly important step for the efficient implementation of a free space laser communication system and for achieving diffraction limited imaging over long paths. The project reported has studied the refractive index structure parameter, Cn2, as function of local bulk meteorological conditions. We present the data collected and the methodology used during the campaigns of the past 3 years. In our analysis we address the greatest limitation that affects studies of turbulence data, the non-stationary and non-linear characteristics which severely limit the usefulness of traditional time series analysis. We have devised a new mathematical technique, referred to as the Hilbert Phase Analysis (HPA) and we report on its implementation and testing in this work.
Entender la propagaciĆ³n Ć³ptica a travĆ©s de los efectos de turbulencia atmosfĆ©rica es un paso importante para la implementaciĆ³n efectiva de sistemas de comunicaciĆ³n por lĆ”ser y de toma de imĆ”genes a travĆ©s de la atmĆ³sfera a largas distancias. Este trabajo presenta el estudio del parĆ”metro de estructura del Ć­ndice de refracciĆ³n de la atmĆ³sfera,, Cn2 , en funciĆ³n de las condiciones climĆ”ticas locales. AquĆ­ presentamos la data obtenida y la metodologĆ­a implementada en los distintos experimentos por los pasados 3 aƱos. En nuestro anĆ”lisis trabajamos con la limitaciĆ³n mĆ”s grande para el anĆ”lisis de nuestra data de turbulencia, la data no posee caracterĆ­sticas de ser estacionaria ni linear, lo cual limita severamente el anĆ”lisis por mĆ©todos tradicionales. Hemos desarrollado una nueva tĆ©cnica matemĆ”tica nombrada ā€œHilbert Phase Analisysā€ (HPA) y reportamos su implementaciĆ³n y pruebas en este trabajo.
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2006
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FISI_FontJimenezCO_2006.pdf
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https://hdl.handle.net/20.500.11801/2073
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