A formalism based on coupled-mode theory is presented that allows one to deduce the equations of evolution of the correlation functions of the field propagating in a turbulent medium. As a particular application, the second-order correlation function is evaluated under less stringent conditions than those usually required in the frame of optical propagation theories in random media
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
The formalism of coupled-mode theory is adopted for describing nonlinear pulse propagation in optica...
The problem of light depolarization in a turbulent atmosphere is revisited by means of coupled-mode ...
Nonlinear aspects of wave propagation in a random medium are considered using a systematic perturbat...
Nonlinear aspects of wave propagation in a random medium are considered using a systematic perturbat...
The photon density operator function is used to calculate light beam propagation through turbulent a...
In a parallel approach to recently-used transfer function formalism, a study involving diffraction o...
International audienceWe study the paraxial wave equation with a randomly perturbed index of refract...
The solution to the problem of excitation of longitudinal and transverse electromagnetic waves in ra...
Coherent modes coupling approach was proposed for describing the propagation of partially or fully c...
A simple technique is used to derive statistical characterizations of the perturbations imposed upon...
The impact of atmospheric phase turbulence on Gaussian beam propagation along propagation paths of v...
The study of phenomena occurring in a turbulent fluid has been successively improved during the last ...
Pulse propagation in a random medium is studied through the calculation of the two-frequency mutual ...
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
The formalism of coupled-mode theory is adopted for describing nonlinear pulse propagation in optica...
The problem of light depolarization in a turbulent atmosphere is revisited by means of coupled-mode ...
Nonlinear aspects of wave propagation in a random medium are considered using a systematic perturbat...
Nonlinear aspects of wave propagation in a random medium are considered using a systematic perturbat...
The photon density operator function is used to calculate light beam propagation through turbulent a...
In a parallel approach to recently-used transfer function formalism, a study involving diffraction o...
International audienceWe study the paraxial wave equation with a randomly perturbed index of refract...
The solution to the problem of excitation of longitudinal and transverse electromagnetic waves in ra...
Coherent modes coupling approach was proposed for describing the propagation of partially or fully c...
A simple technique is used to derive statistical characterizations of the perturbations imposed upon...
The impact of atmospheric phase turbulence on Gaussian beam propagation along propagation paths of v...
The study of phenomena occurring in a turbulent fluid has been successively improved during the last ...
Pulse propagation in a random medium is studied through the calculation of the two-frequency mutual ...
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
A mode coupling approach based on the modal theory of coherence is suggested for the study of partia...
The formalism of coupled-mode theory is adopted for describing nonlinear pulse propagation in optica...