The electrostatic field about a slender dielectric body
Abstract
The problem of determining the electrostatic potential field around and inside a slender dielectric body of revolution is studied. The part of the potential outside the body that is due to the presence of the body is represented as the superposition of potentials due to point singularities distributed along a portion of the axis of the body and lying entirely inside the body. The potential inside the body is represented as a Taylor series in the radial distance from the axis of the body, with unknown coefficients. The boundary conditions on the body surface lead to a pair of coupled integral equations for the singularity density and the Taylor series coefficients. The leading term in the uniform asymptotic expansion of the solution to these equations is obtained in terms of the slenderness ratio of the body. For the case of an axially symmetric external field, the solution is found to depend in a nonuniform manner on the ratio of the dielectric constants.
- Publication:
-
SIAM Journal of Applied Mathematics
- Pub Date:
- June 1987
- Bibcode:
- 1987SJAM...47..605B
- Keywords:
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- Asymptotic Methods;
- Dielectrics;
- Electric Fields;
- Slender Bodies;
- Bodies Of Revolution;
- Polarization (Charge Separation);
- Potential Fields;
- Singularity (Mathematics);
- Taylor Series;
- Physics (General)