Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism

Naman Agarwal; Jiho Yoon; Enric Garcia-Caurel; Tatiana Novikova; Jean Charles Vanel; Angelo Pierangelo; Alexander Bykov; Alexey Popov; Igor Meglinski; Razvigor Ossikovski

doi:10.1364/OL.40.005634

Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism

Naman Agarwal, Jiho Yoon, Enric Garcia-Caurel, Tatiana Novikova, Jean Charles Vanel, Angelo Pierangelo, Alexander Bykov, Alexey Popov, Igor Meglinski, Razvigor Ossikovski^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

We show, through visible-range Mueller polarimetry, as well as numerical simulations, that the depolarization in a homogeneous turbid medium consisting of submicron spherical particles follows a parabolic law with the path-length traveled by light through the medium. This result is in full agreement with the phenomenological theory of the fluctuating medium within the framework of the differential Mueller matrix formalism. We further found that the standard deviations of the fluctuating elementary polarization properties of the medium depend linearly on the concentration of particles. These findings are believed to be useful for the phenomenological interpretation of polari-metric experiments, with special emphasis on biomedical applications.

Original language	English
Pages (from-to)	5634-5637
Number of pages	4
Journal	Optics Letters
Volume	40
Issue number	23
DOIs	https://doi.org/10.1364/OL.40.005634
Publication status	Published - 1 Dec 2015

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title = "Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism",

abstract = "We show, through visible-range Mueller polarimetry, as well as numerical simulations, that the depolarization in a homogeneous turbid medium consisting of submicron spherical particles follows a parabolic law with the path-length traveled by light through the medium. This result is in full agreement with the phenomenological theory of the fluctuating medium within the framework of the differential Mueller matrix formalism. We further found that the standard deviations of the fluctuating elementary polarization properties of the medium depend linearly on the concentration of particles. These findings are believed to be useful for the phenomenological interpretation of polari-metric experiments, with special emphasis on biomedical applications.",

author = "Naman Agarwal and Jiho Yoon and Enric Garcia-Caurel and Tatiana Novikova and Vanel, {Jean Charles} and Angelo Pierangelo and Alexander Bykov and Alexey Popov and Igor Meglinski and Razvigor Ossikovski",

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T1 - Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism

AU - Agarwal, Naman

AU - Yoon, Jiho

AU - Garcia-Caurel, Enric

AU - Novikova, Tatiana

AU - Vanel, Jean Charles

AU - Pierangelo, Angelo

AU - Bykov, Alexander

AU - Popov, Alexey

AU - Meglinski, Igor

AU - Ossikovski, Razvigor

PY - 2015/12/1

Y1 - 2015/12/1

N2 - We show, through visible-range Mueller polarimetry, as well as numerical simulations, that the depolarization in a homogeneous turbid medium consisting of submicron spherical particles follows a parabolic law with the path-length traveled by light through the medium. This result is in full agreement with the phenomenological theory of the fluctuating medium within the framework of the differential Mueller matrix formalism. We further found that the standard deviations of the fluctuating elementary polarization properties of the medium depend linearly on the concentration of particles. These findings are believed to be useful for the phenomenological interpretation of polari-metric experiments, with special emphasis on biomedical applications.

AB - We show, through visible-range Mueller polarimetry, as well as numerical simulations, that the depolarization in a homogeneous turbid medium consisting of submicron spherical particles follows a parabolic law with the path-length traveled by light through the medium. This result is in full agreement with the phenomenological theory of the fluctuating medium within the framework of the differential Mueller matrix formalism. We further found that the standard deviations of the fluctuating elementary polarization properties of the medium depend linearly on the concentration of particles. These findings are believed to be useful for the phenomenological interpretation of polari-metric experiments, with special emphasis on biomedical applications.

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DO - 10.1364/OL.40.005634

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JO - Optics Letters

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ER -

Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism

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