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Cited by 34 publications
(18 citation statements)
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“…Fig. 1 clearly demonstrates the accuracy of T -matrix approach predictions against experimental benchmarks reported by Allen and McCormick [42], where the parameters of two samples are listed in Table 1 and the imaginary part of dielectric constant is 0.036i. The maximum diameter and maximum length of the samples are 2a and 2c, respectively.…”
Section: T -Matrix Approachmentioning
confidence: 65%
“…Fig. 1 clearly demonstrates the accuracy of T -matrix approach predictions against experimental benchmarks reported by Allen and McCormick [42], where the parameters of two samples are listed in Table 1 and the imaginary part of dielectric constant is 0.036i. The maximum diameter and maximum length of the samples are 2a and 2c, respectively.…”
Section: T -Matrix Approachmentioning
confidence: 65%
“…Comparison between the theoretical predictions of our method and experimental data is shown in Fig. 13, where the experimental data are taken from [42] for different samples with the parameters listed in Table 2. The imaginary part of dielectric constant is 0.036i.…”
Section: Numerical Resultsmentioning
confidence: 99%
“…For the scattering amplitude of the scatterer (either disk or needle) with the incorporation of the amplitude and the Fresnel phase corrections, the expression of I shape is as given in (14). The amplitude correction is included by considering the termŝ ·r r in (14) and the Fresnel phase correction is taken into account by considering the term exp{−j (14).…”
Section: Scattered Fields Of Disk-shaped and Needle-shaped Scatterersmentioning
confidence: 99%
“…Одними из первых попы-ток изучения рассеивающих свойств сплошных гидрометеоров являются работы [26,27], в кото-рых авторы экспериментально исследовали эф-фекты поляризации при обратном рассеянии от диэлектрических сфероидов с соотношениями осей 0,5…0,8 [26], и позже, от диэлектрических сфероидов с соотношениями осей 0,2 и от ди-электрических столбиков и дисков с соотноше-ниями размеров 0,1; 0,2 и 0,4 [27]. Геометрия рас-сеяния показана на рис.…”
Section: ___________________________________________unclassified
“…Геометрия рассеяния сфероидальной частицы [28] На рис. 6 представлены результаты изме-рений (штрих пунктир) обратного рассеяния от синтетических диэлектрических сфероидов [27] (kb = 0,609; a/b = 5; ε = 3,14 -i0,036, где a и b -большая и малая полуоси соответственно), кото-рые сравниваются с результатами вычислений A. R. Holt [53] (сплошные линии), при этом рас-считаны значения коэффициентов рассеяния σ, ν и δ для тех же сфероидов методом интегральных уравнений Фредгольма. Из рисунка видно, что согласие между теорией и измерениями удовле-творительное, а сдвиг экспериментальных и тео-ретических кривых по θ связан с неточностью, неизбежной при измерении θ.…”
Section: ___________________________________________unclassified
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