Add to ORKGThe Darwin model of electromagnetic interaction is presented as a self-consistent theory, and is shown to be an excellent approximation to the Maxwell theory for slow electromagnetic waves. Since the fast waves of the Maxwell theory are absent, it is convenient for use in the computer simulation of the electromagnetic dynamics of nonrelativistic plasma
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...
Abstract. Consider the dynamics of charged matter interacting with the Maxwell field. If its initial...
A new type of mesh-free plasma simulation model is presented, capable of modelling particle systems ...
For many astrophysical and most magnetic fusion applications, the purely electromagnetic modes gener...
In many astrophysical and fusion applications the CFL stability condition implies strong computation...
Degree granted in Engineering-Applied Science.Typescript.SPEC. COLL. HAS ARCHIVAL COPY; MICRO. ROOM ...
In plasma simulations, where the speed of light divided by a characteristic length is at a much high...
A new approach to Darwin or magnetoinductive plasma simulation is presented which combines a mesh-fr...
AbstractWe consider the quasistatic and Darwin models of approximation of the time-dependent Maxwell...
AbstractSelf-consistent electromagnetic plasma simulation models based on the particle-in-cell algor...
International audienceTo model momentum exchange in nonlinear wave-particle interaction, as in ampli...
To study the transport phenomena of energetic particles in plasmas, a new type of mesh-free plasma s...
We present a new Vlasov code for collisionless plasmas in the nonrelativistic regime. A Darwin appro...
5 pagesNational audienceConservation of energy and momentum in the classical theory of radiating ele...
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...
Abstract. Consider the dynamics of charged matter interacting with the Maxwell field. If its initial...
A new type of mesh-free plasma simulation model is presented, capable of modelling particle systems ...
For many astrophysical and most magnetic fusion applications, the purely electromagnetic modes gener...
In many astrophysical and fusion applications the CFL stability condition implies strong computation...
Degree granted in Engineering-Applied Science.Typescript.SPEC. COLL. HAS ARCHIVAL COPY; MICRO. ROOM ...
In plasma simulations, where the speed of light divided by a characteristic length is at a much high...
A new approach to Darwin or magnetoinductive plasma simulation is presented which combines a mesh-fr...
AbstractWe consider the quasistatic and Darwin models of approximation of the time-dependent Maxwell...
AbstractSelf-consistent electromagnetic plasma simulation models based on the particle-in-cell algor...
International audienceTo model momentum exchange in nonlinear wave-particle interaction, as in ampli...
To study the transport phenomena of energetic particles in plasmas, a new type of mesh-free plasma s...
We present a new Vlasov code for collisionless plasmas in the nonrelativistic regime. A Darwin appro...
5 pagesNational audienceConservation of energy and momentum in the classical theory of radiating ele...
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...
Abstract. Consider the dynamics of charged matter interacting with the Maxwell field. If its initial...