Title :
Electrodynamics of dipolar beads in an electrophoretic spherical cavity
Author :
Lean, Meng H. ; Völkel, Armin R.
Author_Institution :
Palo Alto Res. Center, CA, USA
Abstract :
This paper describes an algorithm used to simulate transient behavior of a dipolar bead in an electrophoretic spherical cavity. The model includes consideration of form drag and viscous damping, both corrected for wall effects, and a particle simulation model of the bipolar ions in the cavity. Field solution uses the boundary integral equation method. Several levels of approximation are implemented to expedite the overall computation. A consistent set of results is presented to describe the accuracy of the simulation.
Keywords :
boundary integral equations; electric fields; electrodynamics; bipolar ions; boundary integral equation method; dipolar beads electrodynamics; drag damping; electrophoretic spherical cavity; particle simulation model; transient behavior simulation; viscous damping; wall effects; Computational modeling; Damping; Drag; Electrodynamics; Electrostatics; Fluid dynamics; Friction; Integral equations; Torque; Viscosity;
Conference_Titel :
Wireless Communications and Applied Computational Electromagnetics, 2005. IEEE/ACES International Conference on
Print_ISBN :
0-7803-9068-7
DOI :
10.1109/WCACEM.2005.1469647
