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Linear transport theory for particles moving on a spherical surface

✍ Scribed by G. Coppa; A. D’Angola; R. Mulas

Publisher
Elsevier Science
Year
2010
Tongue
English
Weight
813 KB
Volume
59
Category
Article
ISSN
0898-1221

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✦ Synopsis

The paper deals with a linear transport model for particles moving on a spherical surface in the presence of absorption and scattering events. Starting from the analytical expression for the particle density in the case of a pure absorbing sphere, an integral equation is derived for situations in which isotropic scattering is present. The equation has been solved numerically in order to obtain the Green function of the problem. Analytical and numerical results are compared with those obtained resorting to the Monte Carlo method.

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## NOTE Determination of Surface Charge Density Constants for Spherical Silica Particles Using a Linear Transformation (the braces indicate surface concentration, the square brackets indicate volume concentration). U 0 is related to the electrical potential, c 0 , at the The surface charge density