Abstract
A sphere queue model is introduced to calculate Mueller matrices ofturbid media. Combined with the single scattering approximation, thebackscattering Mueller matrices of turbid media can be computed rapidlyby Mie theory. The numerical results agree with the azimuthaldependences of backscattering Mueller matrices' patterns from turbidmedia, which indicates that the major contribution to the Muellermatrices' patterns comes from the single scattering of the spherequeue, and the multiple scattering considered as a high-ordercorrection does not change the patterns. The numerical analysis revealsthat the contrast of Mueller matrices' patterns will decrease withincrease of the concentration of media and the distance from theincident point.
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