Add to ORKGThe Darwin field model addresses an approximation to Maxwell's equations where radiation effects are neglected. It allows to describe general quasistatic electromagnetic field phenomena including inductive, resistive and capacitive effects. A Darwin formulation based on the Darwin-Ampere equation and the implicitly included Darwin-continuity equation yields a non-symmetric and ill-conditioned algebraic systems of equations received from applying a geometric spatial discretization scheme and the implicit backward differentiation time integration method. A two-step solution scheme is presented where the underlying block-Gauss-Seidel method is shown to change the initially chosen gauge condition and the resulting scheme only requires to solve ...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
This dissertation describes a new algorithm for simulating low frequency, kinetic phenomena in plasm...
This paper proposes a Maxwell\u2019s equations finite difference time domain (FDTD) approach for ele...
The Darwin field model addresses an approximation to Maxwell's equations where radiation effects are...
Maxwell's equations are the foundation of electromagnetics, its extensive applications make com...
Electromagnetic quasistatic field models, which take into consideration resistive, inductive, and ca...
For many astrophysical and most magnetic fusion applications, the purely electromagnetic modes gener...
AbstractWe consider the quasistatic and Darwin models of approximation of the time-dependent Maxwell...
The Darwin model of electromagnetic interaction is presented as a self-consistent theory, and is sho...
International audienceIn many cases, the numerical resolution of Maxwell's equations is very expensi...
Degree granted in Engineering-Applied Science.Typescript.SPEC. COLL. HAS ARCHIVAL COPY; MICRO. ROOM ...
In recent years, the modeling of the magnetic and electrical components has aroused much interest in...
A new type of mesh-free plasma simulation model is presented, capable of modelling particle systems ...
In many astrophysical and fusion applications the CFL stability condition implies strong computation...
In plasma simulations, where the speed of light divided by a characteristic length is at a much high...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
This dissertation describes a new algorithm for simulating low frequency, kinetic phenomena in plasm...
This paper proposes a Maxwell\u2019s equations finite difference time domain (FDTD) approach for ele...
The Darwin field model addresses an approximation to Maxwell's equations where radiation effects are...
Maxwell's equations are the foundation of electromagnetics, its extensive applications make com...
Electromagnetic quasistatic field models, which take into consideration resistive, inductive, and ca...
For many astrophysical and most magnetic fusion applications, the purely electromagnetic modes gener...
AbstractWe consider the quasistatic and Darwin models of approximation of the time-dependent Maxwell...
The Darwin model of electromagnetic interaction is presented as a self-consistent theory, and is sho...
International audienceIn many cases, the numerical resolution of Maxwell's equations is very expensi...
Degree granted in Engineering-Applied Science.Typescript.SPEC. COLL. HAS ARCHIVAL COPY; MICRO. ROOM ...
In recent years, the modeling of the magnetic and electrical components has aroused much interest in...
A new type of mesh-free plasma simulation model is presented, capable of modelling particle systems ...
In many astrophysical and fusion applications the CFL stability condition implies strong computation...
In plasma simulations, where the speed of light divided by a characteristic length is at a much high...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
This dissertation describes a new algorithm for simulating low frequency, kinetic phenomena in plasm...
This paper proposes a Maxwell\u2019s equations finite difference time domain (FDTD) approach for ele...