This paper examines the accuracy and calculation speed for the magnetic field computation in an axisymmetric electromagnet. Different numerical techniques, based on an adaptive nonuniform grid, high order finite difference approximations, and semi-analitical calculation of boundary conditions are considered. These techniques are being applied to the modeling of the Variable Specific Impulse Magnetoplasma Rocket. For high-accuracy calculations, a fourth-order scheme offers dramatic advantages over a second order scheme. For complex physical configurations of interest in plasma propulsion, a second-order scheme with nonuniform mesh gives the best results. Also, the relative advantages of various methods are described when the speed of computa...
The ability to have a good understanding of and to manipulate electromagnetic fields has been increa...
During the simulations of the magnetohydrodynamic equations, numerical errors might cause the format...
The magnetohydrodynamics (MHD) model describes the flow of electrically conducting fluids in the pre...
This paper presents a technique for improving the convergence rate of a generalized minimum residual...
There are currently two main trends in solving magnetic field problems, numerical methods, of which ...
For numerical simulations to be effective tools in plasma propulsion research, a higher order accu-r...
In this thesis we study numerical methods for the approximate solution of problems arising in electr...
Forward modelling of electromagnetic induction data simulates the electric and magnetic fields withi...
Both stellarators and tokamaks can have quite complex magnetic topologies in the plasma edge. Specia...
An automatic computational procedure has been developed to efficiently and accurately design the sha...
A method for determining regions of a finite element method to be refined is presented. The calculat...
One of the main challenges present in the numerical modeling of magnetically confined plasmas is due...
A new interpolation method using an analytically solenoidal Gaussian Pro-cess (GP) kernel has been i...
In electromagnetic simulations of magnets and machines, one is often interested in a highly accurate...
A sophisticated mathematical model of the magnetic gun is presented and solved numerically. The mode...
The ability to have a good understanding of and to manipulate electromagnetic fields has been increa...
During the simulations of the magnetohydrodynamic equations, numerical errors might cause the format...
The magnetohydrodynamics (MHD) model describes the flow of electrically conducting fluids in the pre...
This paper presents a technique for improving the convergence rate of a generalized minimum residual...
There are currently two main trends in solving magnetic field problems, numerical methods, of which ...
For numerical simulations to be effective tools in plasma propulsion research, a higher order accu-r...
In this thesis we study numerical methods for the approximate solution of problems arising in electr...
Forward modelling of electromagnetic induction data simulates the electric and magnetic fields withi...
Both stellarators and tokamaks can have quite complex magnetic topologies in the plasma edge. Specia...
An automatic computational procedure has been developed to efficiently and accurately design the sha...
A method for determining regions of a finite element method to be refined is presented. The calculat...
One of the main challenges present in the numerical modeling of magnetically confined plasmas is due...
A new interpolation method using an analytically solenoidal Gaussian Pro-cess (GP) kernel has been i...
In electromagnetic simulations of magnets and machines, one is often interested in a highly accurate...
A sophisticated mathematical model of the magnetic gun is presented and solved numerically. The mode...
The ability to have a good understanding of and to manipulate electromagnetic fields has been increa...
During the simulations of the magnetohydrodynamic equations, numerical errors might cause the format...
The magnetohydrodynamics (MHD) model describes the flow of electrically conducting fluids in the pre...
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