MOHEBI A.

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 states of the excitation light with its transformation after interaction with the sample, the full optical properties can be summarized in a single 4  4 Mueller...

We demonstrate a combination of polarization-resolved with fluorescence optical scanning microscopy that offers polarizing based information along with molecular view of sample as a versatile tool for imaging the chromatin organization.

We demonstrate a combination of polarization-resolved with fluorescence optical scanning microscopy that offers polarizing based information along with molecular view of sample as a versatile tool for imaging the chromatin organization.

Mueller Matrix Microscopy exploits the generation and the analysis of polarized light to create label-free contrast in biological images. However, when dealing with Optical Scanning Microscopy, it is required a fast generation of the polarization states in order to obtain a good Signal-to-Noise Ratio at the pixel-dwell time rate. In this work,...

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 sensitive to the chiral organization at the submicroscopic level. However, this approach averages the localized contrasts related to the sample polarimetric...