Quantitative tissue polarimetry using polar decomposition of 3 × 3 Mueller matrix

Swami, M. K. ; Manhas, S. ; Buddhiwant, P. ; Ghosh, N. ; Uppal, A. ; Gupta, P. K. (2000) Quantitative tissue polarimetry using polar decomposition of 3 × 3 Mueller matrix Proceedings of SPIE, 6535 . 65350J - 65350J. ISSN 0277-786X

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Official URL: http://spiedigitallibrary.org/proceedings/resource...

Related URL: http://dx.doi.org/10.1117/12.740806

Abstract

Polarization properties of any optical system are completely described by a sixteen-element (4 x 4) matrix called Mueller matrix, which transform the Stokes vector describing the polarization properties of incident light to the stokes vector of scattered light. Measurement of all the elements of the matrix requires a minimum of sixteen measurements involving both linear and circularly polarized light. However, for many diagnostic applications, it would be useful if all the polarization parameters of the medium (depolarization (δ), differential attenuation of two orthogonal polarizations, that is, diattenuation (d), and differential phase retardance of two orthogonal polarizations, i.e., retardance (δ )) can be quantified with linear polarization measurements alone. In this paper we show that for a turbid medium, like biological tissue, where the depolarization of linearly polarized light arises primarily due to the randomization of the field vector's direction by multiple scattering, the polarization parameters of the medium can be obtained from the nine Mueller matrix elements involving linear polarization measurements only. Use of the approach for measurement of polarization parameters (Δ, d and δ) of normal and malignant (squamous cell carcinoma) tissues resected from human oral cavity are presented.

Item Type:Article
Source:Copyright of this article belongs to The International Society for Optical Engineering.
ID Code:83746
Deposited On:22 Feb 2012 12:43
Last Modified:22 Feb 2012 12:43

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