Title :
A New Self-Consistent Unbounded Magnetic Field 3-D FE Computation for Electron Guns
Author :
Coco, Salvatore ; Laudani, Antonino ; Pollicino, Giuseppe ; Tirrò, Paola
Author_Institution :
DIEES, Univ. of Catania, Catania, Italy
Abstract :
An innovative 3-D Finite Element approach for the computation of the self-consistent unbounded magnetic field of electron beams is presented for the analysis of electron guns. The solution of the whole problem is obtained by solving iteratively a Vlasov-Maxwell equation assuming stationary conditions together with the relativistic dynamical equations of motion. The self-consistent unbounded magnetostatic field is computed by using an edge elements curl-curl formulation for the magnetic vector potential. A fictitious boundary iterative algorithm is adopted to overcome the problem of boundary conditions assignment. An accuracy test concerning the spread of a relativistic beam and the simulation of a complex gridded electron gun are shown in order to validate and better illustrate the procedure.
Keywords :
electron beams; electron guns; finite element analysis; iterative methods; magnetic field effects; 3D finite element computation; Vlasov-Maxwell equation; boundary conditions; complex gridded electron guns; edge elements curl-curl formulation; electron beams; fictitious boundary iterative algorithm; magnetic vector potential; relativistic dynamical equations; self-consistent unbounded magnetic field; Boundary conditions; Electron beams; Electron guns; Equations; Finite element methods; Iron; Iterative algorithms; Magnetic analysis; Magnetic fields; Magnetostatics; Finite element methods; particle beam optics; self-consistent solution; unbounded domains;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2044391
