The review contains a systematization of the main approaches to the practical
implementation of Mueller matrix polarimetry and the prospects for its application in biology …

Optical scanning microscopy techniques based on the polarization control of the light have
the capability of providing non invasive label-free contrast. By comparing the polarization …

We present an advanced optical method to measure the phase function of circular intensity
differential scattering (CIDS), ie, the normalized Mueller matrix element-S14/S11, from …

Understanding the structural organization of chromatin is essential to comprehend the gene
functions. The chromatin organization changes in the cell cycle, and it conforms to various …

It has long been understood that dilute samples of chiral molecules such as rarefied gases
should exhibit Rayleigh optical activity. We extend the existing theory by accounting for …

Polarized and wide-field light microscopy has been studied for many years to develop
accurate and information-rich images within a focused framework on biophysics and …

The circular intensity differential scattering (CIDS), ie the normalized Mueller matrix element-
S_14/S_11, can be used to detect the helical structures of DNA molecules in biological …

Circular intensity differential scattering (CIDS) is based on the analysis of circular polarized
light scattering and has been proven to be an interesting label-free microscopy technique …

Diffuse reflectance spectroscopy (DRS) has proven to be a powerful, reliable, and non-
invasive optical method for characterizing a specimen. Nevertheless, these methods are …

Polarized light scanning microscopy is a non-invasive and contrast-enhancing technique to
investigate anisotropic specimens and chiral organizations. However, such arrangements …