A Generalized Scalar Potential Integral Equation Formulation for the DC Analysis of Conductors
A Generalized Scalar Potential Integral Equation Formulation for the DC Analysis of Conductors
The electrostatic modeling of conductors is a fundamental challenge in various applications, including the prediction of parasitic effects in electrical interconnects, the design of biasing networks, and the modeling of biological, microelectromechanical, and sensing systems. The boundary element method (BEM) can be an effective simulation tool for these problems because …