The refractive-index structure parameter C2, defined from [n(x)- n(x + r)]2 = Cn2r"3 (1.1) is an important quantity in the study of electromagnetic wave propagation in the atmospheric surface layer. Here nis the turbulent refractive-index fluctuation, x and x + r ar
In Basu (2015; Optics Letters), we proposed a simple approach for the estimation of Cn2. The methodo...
To predict the performance of coastal and shipborne radars, it is essential to assess the propagatio...
Current mathematical scintillation theory describing laser propagation through the atmosphere has be...
Atmospheric scintillations cause difficulties for applications where an undistorted propagation of e...
We explain discrepancies in comparing estimations of the refractive-index structure constant Cn2 in ...
Infrared scintillation measurements were obtained along a 7-km path over San Diego Bay concurrently ...
In order to quantitatively determine the strength of atmospheric turbulence mostly scintillometers a...
This work is dedicated to structural parameter of the refractive index in the atmosphere Cn2 and his...
Infrared scintillation measurements were obtained along a 7-km path over San Diego Bay concurrently ...
Forecasting optical turbulence is essential for the Air Force\u27s Airborne Laser program to optimiz...
The aim of this work is to examine theoretical knowledge of the refractive index structure parameter...
Operation and design of electro-optical systems are affected by atmospheric optical turbulence quant...
Infrared scintillation measurements were obtained along a 7.2 km path over San Diego Bay, concurrent...
The influence of atmospheric environment is fundamental for Free-Space Optical link (FSO). The atmos...
Current mathematical models describing laser propagation through the atmosphere were developed for t...
In Basu (2015; Optics Letters), we proposed a simple approach for the estimation of Cn2. The methodo...
To predict the performance of coastal and shipborne radars, it is essential to assess the propagatio...
Current mathematical scintillation theory describing laser propagation through the atmosphere has be...
Atmospheric scintillations cause difficulties for applications where an undistorted propagation of e...
We explain discrepancies in comparing estimations of the refractive-index structure constant Cn2 in ...
Infrared scintillation measurements were obtained along a 7-km path over San Diego Bay concurrently ...
In order to quantitatively determine the strength of atmospheric turbulence mostly scintillometers a...
This work is dedicated to structural parameter of the refractive index in the atmosphere Cn2 and his...
Infrared scintillation measurements were obtained along a 7-km path over San Diego Bay concurrently ...
Forecasting optical turbulence is essential for the Air Force\u27s Airborne Laser program to optimiz...
The aim of this work is to examine theoretical knowledge of the refractive index structure parameter...
Operation and design of electro-optical systems are affected by atmospheric optical turbulence quant...
Infrared scintillation measurements were obtained along a 7.2 km path over San Diego Bay, concurrent...
The influence of atmospheric environment is fundamental for Free-Space Optical link (FSO). The atmos...
Current mathematical models describing laser propagation through the atmosphere were developed for t...
In Basu (2015; Optics Letters), we proposed a simple approach for the estimation of Cn2. The methodo...
To predict the performance of coastal and shipborne radars, it is essential to assess the propagatio...
Current mathematical scintillation theory describing laser propagation through the atmosphere has be...