Magnetic vector potential (MVP) formulation combined with finite edge elements has gained substantial application in 3-D eddy-current field computation. Compared with its magnetic scalar potential counterpart, the MVP formulation is much easier to treat multiply-connected conductors. With the availability of advanced direct linear solvers with high performance on parallel or multi-core platforms, it becomes more and more important to develop gauged MVP formulations. To this end, the gauging technique is essential to ensure that the MVP formulation is uniquely solvable by direct solvers. In this paper, a novel method for imposing Coulomb gauge to transient eddy-current problems using edge elements for approximating the MVP is proposed. The r...
This paper describes the role and meaning of the gauge condition of magnetic vector potential, and a...
Purpose - To propose a novel 3D hybrid approach, based on a discrete formulation of Maxwell equation...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
The accurate computation of motional eddy currents is essential for the design of electromagnetic de...
The traditional low-frequency eddy-current solvers do not include displacement current effect, while...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
A boundary-element method using a magnetic vector potential for eddy-current analysis is described. ...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
Finite element method using edge element have been developed and utilized for practical eddy current...
The traditional low-frequency electromagnetic field computations do not include stray capacitive eff...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
AbstractIn this paper, we propose novel finite element A - θ approaches to realize the approximation...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
This paper describes the role and meaning of the gauge condition of magnetic vector potential, and a...
Purpose - To propose a novel 3D hybrid approach, based on a discrete formulation of Maxwell equation...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
The accurate computation of motional eddy currents is essential for the design of electromagnetic de...
The traditional low-frequency eddy-current solvers do not include displacement current effect, while...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
A boundary-element method using a magnetic vector potential for eddy-current analysis is described. ...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
Finite element method using edge element have been developed and utilized for practical eddy current...
The traditional low-frequency electromagnetic field computations do not include stray capacitive eff...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
AbstractIn this paper, we propose novel finite element A - θ approaches to realize the approximation...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
This paper describes the role and meaning of the gauge condition of magnetic vector potential, and a...
Purpose - To propose a novel 3D hybrid approach, based on a discrete formulation of Maxwell equation...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...