A system of new integral equations is presented. They are derived from Maxwell's equations and describe radio-frequency (RF) current densities on a two-dimensional flat plate. The equations are generalisations of Pocklington's integral equation showing phase-retardation in two dimensions. These singular equations are solved, numerically, for the case of one-dimensional geometry. The solutions are shown to display effects which correspond to damped resonance when the wavelength of the current matches aspects of the geometry of the conductor. © Australian Mathematical Society 2004.

Item Type:	Refereed Article
Research Division:	Physical Sciences
Research Group:	Condensed matter physics
Research Field:	Electronic and magnetic properties of condensed matter; superconductivity
Objective Division:	Expanding Knowledge
Objective Group:	Expanding knowledge
Objective Field:	Expanding knowledge in the mathematical sciences
UTAS Author:	Bulte, DP (Mr Dan Bulte)
UTAS Author:	Forbes, LK (Professor Larry Forbes)
ID Code:	30913
Year Published:	2004
Deposited By:	Mathematics
Deposited On:	2004-08-01
Last Modified:	2011-09-20
Downloads:	0