The first- and second-order statistical properties of intensity in the near-field of random media are investigated. It is found that specific experimental configurations are needed to relate intensity statistics to statistical properties of physical interface. © 2004 Optical Society of America
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
We report on modeling the statistical properties of near-field scattered intensity. When the sensing...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
The statistical properties of the intensity in close proximity to highly scattering, randomly inhomo...
The properties of many heterogeneous media depend on both the surface roughness and the local variat...
We demonstrate the existence of differences between far and near-field spectra in the close proximit...
We demonstrate the existence of differences between far and near-field spectra in the close proximit...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
Optical fields in the proximity of random media can be modeled as a superposition of waves with rand...
When near field sensing is performed in reflection-emission configuration, statistical analysis of d...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
We report on modeling the statistical properties of near-field scattered intensity. When the sensing...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
The statistical properties of the intensity in close proximity to highly scattering, randomly inhomo...
The properties of many heterogeneous media depend on both the surface roughness and the local variat...
We demonstrate the existence of differences between far and near-field spectra in the close proximit...
We demonstrate the existence of differences between far and near-field spectra in the close proximit...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
Optical fields in the proximity of random media can be modeled as a superposition of waves with rand...
When near field sensing is performed in reflection-emission configuration, statistical analysis of d...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
International audienceAnalysis of the speckle structure of a random field is a well-known topic. Wit...
DOI
Add to ORKG