The phase-screen (split-step) method is widely used for the modeling of wave propagation in inhomogeneous media. Most known is the method of flat phase screens. An optimized approach based on cylindrical phase screen was introduced for the 2-D modeling of radio occultation sounding of the Earth’s atmosphere. In this paper, we propose a further generalization of this method for the 3-D problem of propagation of diverging beams. Our generalization is based on spherical phase screens. In the paraxial approximation, we derive the formula for the vacuum screen- to-screen propagator. We also derive the expression for the phase thickness of a thin layer of an isotropic random media. We describe a numerical implementation of this method and give nu...
A new method to overcome some limitations in the simulation of the propagation of waves originating ...
AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random ...
To analyze the effects of atmospheric refractive turbulence on coherent lidar performance in a reali...
Numerical modeling of optical wave propagation in atmospheric turbulence is traditionally performed ...
Understanding and predicting laser beam propagation effects in the atmosphere is important for laser...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
While the wave structure function has been analytically calculated for a variety of beam types, rece...
Tractable analytic expressions are developed for a variety of basic statistical quantities involving...
Présent dans ScopusInternational audienceA propagation method self-consistent in the discrete domain...
A simulation was constructed, and numerical experiments were conducted, of optical-wave double-pass ...
The computationally efficient phase-screen forward modeling technique is extended to allow investig...
A new method to overcome some limitations in the simulation of the propagation of waves originating ...
The propagation of an input field through tilted and curved surfaces is presented and applied for a ...
Modeling the effects of atmospheric turbulence on optical beam propagation is a key element in the d...
International audienceGaussian beams as solutions of the parabolic wave equation in inhomogeneous tw...
A new method to overcome some limitations in the simulation of the propagation of waves originating ...
AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random ...
To analyze the effects of atmospheric refractive turbulence on coherent lidar performance in a reali...
Numerical modeling of optical wave propagation in atmospheric turbulence is traditionally performed ...
Understanding and predicting laser beam propagation effects in the atmosphere is important for laser...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
While the wave structure function has been analytically calculated for a variety of beam types, rece...
Tractable analytic expressions are developed for a variety of basic statistical quantities involving...
Présent dans ScopusInternational audienceA propagation method self-consistent in the discrete domain...
A simulation was constructed, and numerical experiments were conducted, of optical-wave double-pass ...
The computationally efficient phase-screen forward modeling technique is extended to allow investig...
A new method to overcome some limitations in the simulation of the propagation of waves originating ...
The propagation of an input field through tilted and curved surfaces is presented and applied for a ...
Modeling the effects of atmospheric turbulence on optical beam propagation is a key element in the d...
International audienceGaussian beams as solutions of the parabolic wave equation in inhomogeneous tw...
A new method to overcome some limitations in the simulation of the propagation of waves originating ...
AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random ...
To analyze the effects of atmospheric refractive turbulence on coherent lidar performance in a reali...