Title :
Finite element implementation of the generalized-Lorenz gauged a-Φ formulation for low-frequency circuit modeling
Author :
Yan Lin Li ; Sheng Sun ; Weng Cho Chew
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Hong Kong, Hong Kong, China
Abstract :
The A-Φ formulation with generalized Lorenz gauge is free of catastrophic breakdown at low frequencies. In the formulation, A and Φ are completely separated and Maxwell´s equations are reduced into two independent equations pertinent to A and Φ, respectively. This, however, leads to more complicated equations in contrast to the traditional A-Φ formulation, which makes the numerical representation of the physical quantities challenging, especially for A. By virtue of the differential forms theory and Whitney elements, both A and Φ are appropriately represented. The condition of the resultant matrix system is well-controlled as frequency becomes low, even approaches to 0. The generalized-Lorenz gauged A-Φ formulation is applied to model low-frequency circuits at μm lengthscale.
Keywords :
Maxwell equations; finite element analysis; matrix algebra; network analysis; Maxwell equations; Whitney elements; differential forms theory; finite element method; generalized-Lorenz gauged A-Φ formulation; independent equations; low-frequency circuit modeling; resultant matrix system; Eigenvalues and eigenfunctions; Electric breakdown; Finite element analysis; Integral equations; Integrated circuit modeling; Mathematical model; Physics;
Conference_Titel :
Applied Computational Electromagnetics (ACES), 2015 31st International Review of Progress in
Conference_Location :
Williamsburg, VA
