Add to ORKGA procedure for determining the optical strength of turbulence of the atmosphere and the wind velocity at various altitudes by measuring the spatial and temporal covariance of scintillation is developed. Emphasis is placed on the development of the formal relationships that have to be inverted to obtain the desired results. For determination of optical strength of turbulence, it is a linear integral equation that is developed. However, for determination of remote wind velocity, a nonlinear integral equation is obtained. A computer approach for solving each of the equations is suggested. The configuration and performance requirements of the measurement apparatus are discussed
Atmospheric turbulence is a phenomenon of interest in many scientific fields. The direct effects of ...
Comparisons of in situ wind and turbulence measurements made with the NASA B-57 instrumented aircraf...
The structure constant of the atmospheric refractive index is used for characterizing the turbulence...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
The optical effects arising from refractive-index variations in the clear air are qualitatively desc...
The measurement of the strength and velocity of atmospheric optical turbulence using a generalised S...
We present a method for simultaneous measurement of the vertical distribution of the optical turbule...
We present a method for simultaneous measurement of the vertical distribution of the optical turbule...
Atmospheric turbulence is a random and chaotic process brought about by energy transport mechanisms ...
Refractive index of atmospheric air is non-homogeneous and distorts propagating light waves. This ph...
In February 2005 a joint atmospheric propagation experiment was conducted between the Australian Def...
Speckle turbulence interaction has the potential for allowing single ended remote sensing of the pat...
A new method is described for the remote measurement of winds and atmospheric turbulence by the cros...
In February 2005 a joint atmospheric propagation experiment was conducted between the Australian Def...
Atmospheric turbulence is a phenomenon of interest in many scientific fields. The direct effects of ...
Comparisons of in situ wind and turbulence measurements made with the NASA B-57 instrumented aircraf...
The structure constant of the atmospheric refractive index is used for characterizing the turbulence...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
The optical effects arising from refractive-index variations in the clear air are qualitatively desc...
The measurement of the strength and velocity of atmospheric optical turbulence using a generalised S...
We present a method for simultaneous measurement of the vertical distribution of the optical turbule...
We present a method for simultaneous measurement of the vertical distribution of the optical turbule...
Atmospheric turbulence is a random and chaotic process brought about by energy transport mechanisms ...
Refractive index of atmospheric air is non-homogeneous and distorts propagating light waves. This ph...
In February 2005 a joint atmospheric propagation experiment was conducted between the Australian Def...
Speckle turbulence interaction has the potential for allowing single ended remote sensing of the pat...
A new method is described for the remote measurement of winds and atmospheric turbulence by the cros...
In February 2005 a joint atmospheric propagation experiment was conducted between the Australian Def...
Atmospheric turbulence is a phenomenon of interest in many scientific fields. The direct effects of ...
Comparisons of in situ wind and turbulence measurements made with the NASA B-57 instrumented aircraf...
The structure constant of the atmospheric refractive index is used for characterizing the turbulence...