2016
DOI: 10.1016/j.physrep.2016.04.002
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First-principles modeling of electromagnetic scattering by discrete and discretely heterogeneous random media

Abstract: A discrete random medium is an object in the form of a finite volume of a vacuum or a homogeneous material medium filled with quasi-randomly and quasi-uniformly distributed discrete macroscopic impurities called small particles. Such objects are ubiquitous in natural and artificial environments. They are often characterized by analyzing theoretically the results of laboratory, in situ, or remote-sensing measurements of the scattering of light and other electromagnetic radiation. Electromagnetic scattering and … Show more

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Cited by 119 publications
(94 citation statements)
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References 316 publications
(506 reference statements)
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“…The effective medium approximation (EMA), along with the Maxwell Garnett mixing rule, has already been used in a number of works to calculate optical properties of porous particles (see, e.g., Voshchinnikov et al, 2007;Kylling et al, 2014). The question of EMA applicability is discussed in detail by Mishchenko et al (2016).…”
Section: Discussion and Inferencesmentioning
confidence: 99%
See 1 more Smart Citation
“…The effective medium approximation (EMA), along with the Maxwell Garnett mixing rule, has already been used in a number of works to calculate optical properties of porous particles (see, e.g., Voshchinnikov et al, 2007;Kylling et al, 2014). The question of EMA applicability is discussed in detail by Mishchenko et al (2016).…”
Section: Discussion and Inferencesmentioning
confidence: 99%
“…Liu et al (2014) concluded that scattering properties of the equivalent homogeneous particles agree well with those of internally mixed particles. Fundamental aspects and recent developments of the scattering of electromagnetic radiation by a discrete random medium as well as applicability of the EMAs are reported in the work by Mishchenko et al (2016).…”
Section: Introductionmentioning
confidence: 99%
“…The accuracy of the effective medium approximation depends on the size of the primary particles and the homogeneity of their distribution in the medium [12][13][14][15]. In mesocrystals homogeneity is an intrinsic property provided by the high ordering of the primary particles, it should be noted that in particulate random media with high fraction of the inclusion material lack of homogeneity reduce the accuracy of the approach [15]. The appropriateness of the primary particle size can be estimated by computing the size parameter [12] …”
Section: Discussionmentioning
confidence: 99%
“…Another possibility is to simulate the response of a finite size mesocrystalline structure, like, for example, a mesocrystal of spherical shape, and compare the results with the Lorentz-Mie simulations combined with effective medium theories. This approach was applied in [12][13][14][15] to study the accuracy of the effective medium description of spherical objects composed of random particulate media. Simulations presented in this paper are closely related to one of the prospective applications of mesocrystals-the functional pigments [3], where the optical response of the pigment particles can be tuned by controlling the mesocrystal's density and shape, and the reported results can be used to optimize the properties of such systems.…”
Section: Introductionmentioning
confidence: 99%
“…[1][2][3][4][5][6] and the comprehensive reference list in the recent review [7]). In particular, the effects of domain size [8], particle size [9], particle refractive index [1,9] (including the imaginary part [10]), and particle packing density [11,12] have been studied in substantial detail.…”
Section: Introductionmentioning
confidence: 99%