Title :
Correlated scattering and clustering of very dense random spherical particles using Monte-Carlo numerical realization
Author :
Jin, Ya-Qiu ; Yang, Qing
Author_Institution :
Key Lab. of Wave Scattering & Remote Sensing Inf., Fudan Univ., Shanghai, China
Abstract :
Monte Carlo (MC) numerical simulation has been applied to calculation of scattering and extinction coefficients ks, ke and the effective propagation constant K of random dense particles. These discussions are based on the case for ice grains of snowpack with fv < 0.4. However, correlated scattering from very dense random particles such as fv > 0.4 has not been studied. In this paper, two MC methods (i.e. sequential addition method and random shuffling method) are adopted to generate randomly spatial positions of very dense spherical particles. Numerical approaches for calculations of ks, ke and K for very dense particles fv > 0.4 are developed. Numerical simulations show that random media of very dense particles demonstrate particles clustering and enhance scattering as bigger or clustered particles.
Keywords :
Monte Carlo methods; correlation methods; electromagnetic wave scattering; pattern clustering; random processes; Monte-Carlo numerical simulation; correlated scattering; particle clustering; random shuffling method; random spherical particles; sequential addition method; Extinction coefficients; Ice; Laboratories; Maxwell equations; Monte Carlo methods; Numerical simulation; Particle scattering; Propagation constant; Quantum cellular automata; Testing;
Conference_Titel :
Microwave Conference Proceedings, 2005. APMC 2005. Asia-Pacific Conference Proceedings
Print_ISBN :
0-7803-9433-X
DOI :
10.1109/APMC.2005.1606790
