$Estimation and characterization of the refractive index structure constant within the marine atmospheric boundary laye$

Estimation and characterization of the refractive index structure constant within the marine atmospheric boundary laye

We verified the feasibility of an alternative solution to generate temperature and pressure profiles with the U.S. standard atmosphere model (USSA-76). We simultaneously integrated this model with conventional meteorological parameters measured by a weather station in the course of estimating the re...

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Veröffentlicht in:	Applied optics (2004) 2022-11, Vol.61 (33), p.9762
Hauptverfasser:	Zhang, Hanjiu, Zhu, Liming, Sun, Gang, Zhang, Kun, Xu, Manman, Liu, Nana, Chen, Duolong, Wu, Yang, Cui, Shengcheng, Luo, Tao, Li, Xuebin, Weng, Ningquan
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Sprache:	eng
Schlagworte:	Atmospheric boundary layer Estimation Light transmission Meteorological parameters Optoelectronics Refractivity Turbulence Weather stations Wind shear
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container_issue	33
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container_title	Applied optics (2004)
container_volume	61
creator	Zhang, Hanjiu Zhu, Liming Sun, Gang Zhang, Kun Xu, Manman Liu, Nana Chen, Duolong Wu, Yang Cui, Shengcheng Luo, Tao Li, Xuebin Weng, Ningquan
description	We verified the feasibility of an alternative solution to generate temperature and pressure profiles with the U.S. standard atmosphere model (USSA-76). We simultaneously integrated this model with conventional meteorological parameters measured by a weather station in the course of estimating the refractive index structure constant (ð¶2ð'>). Moreover, a continuous-time-series estimation method of the refractive index structure constant was established within the marine atmospheric boundary layer (ABL) based on wind data obtained from a coherent Doppler wind lidar (CDWL). We also analyzed the optical turbulence characteristics induced by wind shear during the conducted experiment. Laminated and patchy stratified turbulences, which affect the performance of imaging and light transmission systems, were found within the marine ABL. Additionally, the relationship between the ABL and all atmospheric optical turbulence factors shows that the ratio of marine ABL in the entire layer differs from that reported in previous studies. Moreover, the influence of thermal turbulence factors within the marine ABL was less than that of the entire layer in our case. We report a real-time ð¶2ð'> estimation method based on a CDWL. The characteristics of the marine ABL ð¶2ð'> constitute a reference for optoelectronic applications.
doi_str_mv	10.1364/AO.465463
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We simultaneously integrated this model with conventional meteorological parameters measured by a weather station in the course of estimating the refractive index structure constant (ð¶2ð'>). Moreover, a continuous-time-series estimation method of the refractive index structure constant was established within the marine atmospheric boundary layer (ABL) based on wind data obtained from a coherent Doppler wind lidar (CDWL). We also analyzed the optical turbulence characteristics induced by wind shear during the conducted experiment. Laminated and patchy stratified turbulences, which affect the performance of imaging and light transmission systems, were found within the marine ABL. Additionally, the relationship between the ABL and all atmospheric optical turbulence factors shows that the ratio of marine ABL in the entire layer differs from that reported in previous studies. Moreover, the influence of thermal turbulence factors within the marine ABL was less than that of the entire layer in our case. We report a real-time ð¶2ð'> estimation method based on a CDWL. 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subjects	Atmospheric boundary layer Estimation Light transmission Meteorological parameters Optoelectronics Refractivity Turbulence Weather stations Wind shear
title	Estimation and characterization of the refractive index structure constant within the marine atmospheric boundary laye
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