Multiple scattering of polarized light by particles in an absorbing medium

Michael I. Mishchenko; Janna M. Dlugach

doi:10.1364/AO.58.004871

Applied Optics
Vol. 58,
Issue 18,
pp. 4871-4877
(2019)
•https://doi.org/10.1364/AO.58.004871

Multiple scattering of polarized light by particles in an absorbing medium

Michael I. Mishchenko and Janna M. Dlugach

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Michael I. Mishchenko and Janna M. Dlugach, "Multiple scattering of polarized light by particles in an absorbing medium," Appl. Opt. 58, 4871-4877 (2019)

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Abstract

We study multiple scattering of light by particles embedded in an absorbing host medium using a recently developed single-scattering and vector radiative-transfer methodology directly based on the Maxwell equations. The first-principles results are compared with those rendered by the conventional heuristic approach according to which the single-scattering properties of particles can be computed by assuming that the host medium is nonabsorbing. Our analysis shows that the conventional approach yields very accurate results in the case of aerosol and cloud particles suspended in an absorbing gaseous atmosphere. In the case of air bubbles in water, the traditional approach can cause large relative errors in reflectance, but only when strong absorption in the host medium makes the resulting reflectance very small. The corresponding polarization errors are substantially smaller.

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$T_{host}$	$m_{1}^{''}$	$T$	$C_{sca}^{eff}, {μm}^{2}$	$C_{ext}, {μm}^{2}$	$ϖ^{eff}$
0.1	$0.60479 \times 10^{- 11}$	1.02468	1.8494	1.8494	0.90241
1	$0.60479 \times 10^{- 10}$	1.92468	1.8494	1.8494	0.48043
3	$0.18144 \times 10^{- 9}$	3.92468	1.8494	1.8494	0.23561
10	$0.60479 \times 10^{- 9}$	10.9247	1.8494	1.8494	0.084641

$T_{host}$	$m_{1}^{''}$	$T$	$C_{sca}^{eff}, {μm}^{2}$	$C_{ext}, {μm}^{2}$	$ϖ^{eff}$
0.1	0	1.02468	1.8494	1.8494	0.90241
1	0	1.92468	1.8494	1.8494	0.48043
3	0	3.92468	1.8494	1.8494	0.23561
10	0	10.9247	1.8494	1.8494	0.084641

$T_{host}$	$m_{1}^{''}$	$T$	$C_{sca}^{eff}, {μm}^{2}$	$C_{ext}, {μm}^{2}$	$ϖ^{eff}$
1	$0.53715 \times 10^{- 10}$	10.8030	485.60	490.15	0.89901
10	$0.53715 \times 10^{- 9}$	19.8030	485.60	490.15	0.49043
30	$0.16114 \times 10^{- 8}$	39.8030	485.60	490.15	0.24400
100	$0.53715 \times 10^{- 8}$	109.803	485.60	490.15	0.088449

$T_{host}$	$m_{1}^{''}$	$T$	$C_{sca}^{eff}, {μm}^{2}$	$C_{ext}, {μm}^{2}$	$ϖ^{eff}$
1	0	10.8030	485.60	490.15	0.89901
10	0	19.8030	485.60	490.15	0.49043
30	0	39.8030	485.60	490.15	0.24400
100	0	109.803	485.60	490.15	0.088449

$λ$ , μm	$m_{1}^{'}$	$m_{1}^{''}$	$C_{ext, A}, {μm}^{2}$	$C_{ext, B}, {μm}^{2}$	$C_{sca, A}^{eff}, {μm}^{2}$	$C_{sca, B}^{eff}, {μm}^{2}$
0.6	1.332	$1.09 \times 10^{- 8}$	547.7852	547.7852	547.7860	547.7852
1	1.327	$2.89 \times 10^{- 6}$	549.2962	549.2962	549.4270	549.2962
1.4	1.321	$1.38 \times 10^{- 4}$	549.6329	549.6346	554.1468	549.6346
2	1.306	$1.1 \times 10^{- 3}$	546.5237	546.6039	572.9135	546.6039
2.7	1.188	0.019	462.6561	488.9096	1183.768	488.9096
3.3	1.450	0.0368	548.8644	551.1966	2682.243	551.1966

$λ$ , μm	$f$	$ϖ_{A}^{eff}$	$ϖ_{B}^{eff}$
0.6	0.002	0.99926	0.99925
0.6	0.02	0.99993	0.99993
1.0	0.002	0.89435	0.89414
1.0	0.02	0.98853	0.98830
1.4	0.002	0.20022	0.19858
1.4	0.02	0.71832	0.71247
2.0	0.002	0.044333	0.042297
2.0	0.02	0.32111	0.30635
2.7	0.002	0.0074538	0.0030780
2.7	0.02	0.072633	0.029950
3.3	0.002	0.010665	0.0021917
3.3	0.02	0.10460	0.021493

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