Add to ORKGSecond-order statistical properties of the intensity in the close proximity of various highly scattering, randomly inhomogeneous media were investigated. We found that they relate to the physical characteristics of the random medium. © 2004 Optical Society of America
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...
Two-dimensional near-field images of light transmitted through a disordered dielectric structure hav...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The statistical properties of the intensity in close proximity to highly scattering, randomly inhomo...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
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...
Two-dimensional near-field images of light transmitted through a disordered dielectric structure hav...
Second-order statistical properties of the intensity in the close proximity of various highly scatte...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The statistical properties of the intensity in close proximity to highly scattering, randomly inhomo...
The conventional coherence theory suggests that the fields radiated by statistically homogeneous sou...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
The first- and second-order statistical properties of intensity in the near-field of random media ar...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
Next generation photonics-based technologies will ultimately rely on novel materials and devices. Fo...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
The spectrum of light in close proximity to a highly scattering, randomly inhomogeneous medium is in...
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...
Two-dimensional near-field images of light transmitted through a disordered dielectric structure hav...