Add to ORKGWe show that by using Monte Carlo simulations, one can study the characteristics of beams with adjustable spatial coherence properties that propagate through highly scattering media. Moreover, we show that a single simulation is sufficient to obtain the intensity distribution at the exit surface of the scattering medium for any degree of global coherence of the input beam. The efficient numerical procedure correctly reproduces the first- and second-order statistics of the intensity distribution obtained after propagation through diffusive media. (C) 2004 Optical Society of America
The general framework of optical coherence theory is now well established and has been described in ...
When propagating through particulate media, optical beams are degraded owing to scattering. We found...
In this paper, we propose a numerical approach to simulate the degree of coherence (DOC) of a partia...
We show that by using Monte Carlo simulations, one can study the characteristics of beams with adjus...
The traditional Monte Carlo technique of photon transport in random media describes only single poin...
In this paper, we propose a numerical approach to simulate the degree of coherence (DOC) of a partia...
We study the spatial coherence of an optical beam in a strongly scattering medium confined in a slab...
The properties of light scattered from material systems depend on the characteristics of input optic...
Some years ago it was found by computer simulation that partially coherent beams may, in certain sit...
The properties of light scattered from material systems depend on the characteristics of input optic...
Traditional Monte Carlo (MC) technique of photon transport in random medium is able to describe only...
We show that, when a partially coherent beam propagates through an inhomogeneous medium such as atmo...
Using an incident beam with shaped spatial coherence properties and measuring the coherent backscatt...
Using a customized coupled dipoles technique, we quantify the influence of the state of spatial cohe...
The theory of partial coherence is a field of interest due to its applications in many branches of p...
The general framework of optical coherence theory is now well established and has been described in ...
When propagating through particulate media, optical beams are degraded owing to scattering. We found...
In this paper, we propose a numerical approach to simulate the degree of coherence (DOC) of a partia...
We show that by using Monte Carlo simulations, one can study the characteristics of beams with adjus...
The traditional Monte Carlo technique of photon transport in random media describes only single poin...
In this paper, we propose a numerical approach to simulate the degree of coherence (DOC) of a partia...
We study the spatial coherence of an optical beam in a strongly scattering medium confined in a slab...
The properties of light scattered from material systems depend on the characteristics of input optic...
Some years ago it was found by computer simulation that partially coherent beams may, in certain sit...
The properties of light scattered from material systems depend on the characteristics of input optic...
Traditional Monte Carlo (MC) technique of photon transport in random medium is able to describe only...
We show that, when a partially coherent beam propagates through an inhomogeneous medium such as atmo...
Using an incident beam with shaped spatial coherence properties and measuring the coherent backscatt...
Using a customized coupled dipoles technique, we quantify the influence of the state of spatial cohe...
The theory of partial coherence is a field of interest due to its applications in many branches of p...
The general framework of optical coherence theory is now well established and has been described in ...
When propagating through particulate media, optical beams are degraded owing to scattering. We found...
In this paper, we propose a numerical approach to simulate the degree of coherence (DOC) of a partia...