Litcius/Paper detail

Transmission Mueller matrix imaging with spatial filtering

Ruoyu Meng, Conghui Shao, Pengcheng Li, Yang Dong, Anli Hou, Chao Li, Liyan Lin, Honghui He, Hui Ma

2021Optics Letters14 citationsDOI

Abstract

In this Letter, we report a study on the effects of spatial filtering for a transmission Mueller matrix imaging system. A spatial filter (SF) is placed on the back Fourier plane of the imaging lens in a dual-rotating-retarders Mueller matrix imaging system to select photons within a certain scattering angle. The system is then applied to three types of human cancerous tissues. When imaging with a small-aperture SF, some polarimetry basis parameters show sharp changes in contrast in the cancerous regions. Monte Carlo simulations using a simple sphere-cylinder scattering model also show that spatial filtering of the scattered photons provides extra information on the size and shape of the scattering particles. The results indicate that spatial filtering enhances the capability of polarization imaging as a powerful tool for biomedical diagnosis.

Topics & Concepts

Mueller calculusOpticsSpatial filterScatteringPolarimetrySpatial frequencyPolarization (electrochemistry)PhysicsTransmission (telecommunications)Computer scienceTelecommunicationsPhysical chemistryChemistryOptical Polarization and EllipsometryOptical measurement and interference techniquesLeaf Properties and Growth Measurement
Transmission Mueller matrix imaging with spatial filtering | Litcius