Since recently, a number of innovative polarization-based optical imaging modalities have been introduced and extensively used in various biomedical applications, with an ultimate aim to attain the practical tool for the optical biopsy and functional characterization of biological tissues. The techniques utilize polarization properties of light and Mueller matrix mapping of microscopic imagesof histological sectionsof biological tissues or polycrystalline films ofbiologicalfluids. The main drawback of currently developed laser polarimetry approaches and Mueller matrix mapping techniques is poor reproducibility of experi-mental data. This is due to azimuthal dependence of polarization and ellipticity values of most matrix elements to sample ...
We introduce a method of azimuthally invariant 3D Mueller-matrix (MM) layer-by-layer mapping of the ...
Layered topographic maps of the depolarisation due to diffuse biological tissues are produced using ...
A multiple-channel polarization-sensitive system based on optical coherence tomography was built to ...
Since recently, a number of innovative polarization-based optical imaging modalities have been intro...
The model of the azimuthally invariant Mueller-matrix description of polarization-correlation mechan...
A new technique of Mueller-matrix mapping of polycrystalline structure of histological sections of b...
We introduce a Mueller-matrix imaging polarization-based approach for the quantitative digital scree...
The information is given about the optical arrangement, in which the elements of the coordinate allo...
Significance Mueller-matrix polarimetry is a powerful method allowing for the visualization of malfo...
The foundations of the traditional Müller-matrix polarimetry are set forth in a series of publicatio...
The present work is devoted to investigation of mechanisms of optical anisotropy of biological tissu...
A new azimuthally stable polarimetric method for processing of microscopic images of optically aniso...
An optical-physical system for extracting information about the fluctuations in the optical anisotro...
We introduce a method of azimuthally invariant 3D Mueller-matrix (MM) layer-by-layer mapping of the ...
Layered topographic maps of the depolarisation due to diffuse biological tissues are produced using ...
A multiple-channel polarization-sensitive system based on optical coherence tomography was built to ...
Since recently, a number of innovative polarization-based optical imaging modalities have been intro...
The model of the azimuthally invariant Mueller-matrix description of polarization-correlation mechan...
A new technique of Mueller-matrix mapping of polycrystalline structure of histological sections of b...
We introduce a Mueller-matrix imaging polarization-based approach for the quantitative digital scree...
The information is given about the optical arrangement, in which the elements of the coordinate allo...
Significance Mueller-matrix polarimetry is a powerful method allowing for the visualization of malfo...
The foundations of the traditional Müller-matrix polarimetry are set forth in a series of publicatio...
The present work is devoted to investigation of mechanisms of optical anisotropy of biological tissu...
A new azimuthally stable polarimetric method for processing of microscopic images of optically aniso...
An optical-physical system for extracting information about the fluctuations in the optical anisotro...
We introduce a method of azimuthally invariant 3D Mueller-matrix (MM) layer-by-layer mapping of the ...
Layered topographic maps of the depolarisation due to diffuse biological tissues are produced using ...
A multiple-channel polarization-sensitive system based on optical coherence tomography was built to ...