Stochastic model for the differential Mueller matrix of stationary and nonstationary turbid media

J. M. Charbois; V. Devlaminck

doi:10.1364/JOSAA.33.002414

Journal of the Optical Society of America A
Vol. 33,
Issue 12,
pp. 2414-2424
(2016)
•https://doi.org/10.1364/JOSAA.33.002414

Stochastic model for the differential Mueller matrix of stationary and nonstationary turbid media

J. M. Charbois and V. Devlaminck

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J. M. Charbois and V. Devlaminck, "Stochastic model for the differential Mueller matrix of stationary and nonstationary turbid media," J. Opt. Soc. Am. A 33, 2414-2424 (2016)

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Related Topics
Table of Contents Category
- Physical Optics
Optics & Photonics Topics
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The topics in this list come from the Optics and Photonics Topics applied to this article.
Previously assigned OCIS codes
- Polarization (260.5430)
- Turbid media (290.7050)
- Scattering, polarization (290.5855)

About this Article
History
- Original Manuscript: June 24, 2016
- Revised Manuscript: October 25, 2016
- Manuscript Accepted: October 25, 2016
- Published: November 21, 2016
Virtual Issues
Virtual Journal for Biomedical Optics Vol. 12, Iss. 2

Abstract

We show the existence of different regimes in spatial evolution of depolarization in turbid media characterized by a diagonal Mueller matrix (pure depolarizer). Experimental results previously published already established the existence of a first regime, where the depolarization follows a parabolic law with the thickness of stationary medium traveled by light. New experiments first confirm the existence of a second regime, which we have previously demonstrated, where the depolarization follows a linear law on a large scale. They also confirm the existence of much more complex evolution laws even under small-scale approximation. A stochastic approach is proposed to model the phenomenon. It perfectly describes all these different experimental results and allows us to analyze the behavior of the polarization in the case of solid or liquid scattering media. The influence of the measurement setup is also analyzed.

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$d$	0.048		0.095		0.167
$d$	$S$	$B$	$S$	$b$	$S$	$b$
$L$	0.084	0.12	0.169	0.158	0.296	0.117
$L 45$	0.084	0.119	0.169	0.155	0.295	0.109
$C$	0.117	0.343	0.237	0.344	0.371	0.237

$d$	0.286		0.429
$d$	$a$	$σ$	$a$	$σ$
$L$	0.189	0.101	0.261	0.164
$L 45$	0.189	0.101	0.261	0.164
$C$	0.22	0.108	0.319	0.191

sp	$γ$	$ω$	$B$	$K$	$D$	$E$	$F$
$L$	0.126	0.47	0.09	−0.018	0.026	0.018	0.007
$L 45$	0.126	0.47	0.09	−0.023	0.023	0.017	10-4
$C$	0.086	0.14	0.02	−0.12	0.049	0.037	0.062

$d$	0.048		0.095		0.167
$d$	$S$	$B$	$S$	$b$	$S$	$b$
$L$	0.084	0.12	0.169	0.158	0.296	0.117
$L 45$	0.084	0.119	0.169	0.155	0.295	0.109
$C$	0.117	0.343	0.237	0.344	0.371	0.237

$d$	0.286		0.429
$d$	$a$	$σ$	$a$	$σ$
$L$	0.189	0.101	0.261	0.164
$L 45$	0.189	0.101	0.261	0.164
$C$	0.22	0.108	0.319	0.191

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Figures (14)

Tables (3)

Equations (41)

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