Complete Two-dimensional Muellermetric Imaging of Biological Tissue   Using Heterodyned Optical Coherence Tomography

Xue Liu; Shih C. Tseng; and M.S. Shahriar

arXiv:1004.1290·physics.optics·April 9, 2010

Complete Two-dimensional Muellermetric Imaging of Biological Tissue Using Heterodyned Optical Coherence Tomography

Xue Liu, Shih C. Tseng, and M.S. Shahriar

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TL;DR

This paper presents a heterodyned optical coherence tomography system capable of capturing complete 4x4 Muellermetric images of biological tissue layers, revealing detailed polarization information beyond conventional OCT capabilities.

Contribution

The study introduces a novel heterodyned OCT system for full Muellermetric imaging of tissue, enabling detailed polarization analysis at different depths.

Findings

01

Successful acquisition of complete Muellermetric images of tissue layers

02

Revealed polarization information not accessible with conventional OCT

03

Demonstrated depth-resolved polarization imaging in biological tissue

Abstract

A polarization-sensitive optical coherence tomography system based on heterodyning and filtering techniques is built to perform Stokesmetric imaging of different layers of depths in a porcine tendon sample. The complete 4\times4 backscattering Muellermetric images of one layer are acquired using such a system. The images reveal information indiscernible from a conventional OCT system.

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Taxonomy

TopicsOptical Coherence Tomography Applications · Photoacoustic and Ultrasonic Imaging · Advanced Fluorescence Microscopy Techniques