Title :
Fast simulation of electromagnetic slow-wave structures
Author :
Cooke, S.J. ; Levush, B. ; Vlasov, A.N. ; Antonsen, T.M., Jr.
Author_Institution :
Vacuum Electron. Branch, Washington, DC, USA
Abstract :
We present results of a model for fast end-to-end simulation of extended slow-wave structures, which obtains a similarly reduced representation for Maxwell´s equations directly from 3-D numerical simulations of individual cavities (cells) of the structure. We will demonstrate that our method retains the advantages of the equivalent circuit models, but with the accuracy of a full 3-D simulation that normally would be impractical. In addition, the method provides the complete 3-D electromagnetic field structure, that may be used to compute interactions with an electron beam using a large-signal simulation code such as TESLA.
Keywords :
Maxwell equations; computational electromagnetics; eigenvalues and eigenfunctions; slow wave structures; 3-D electromagnetic field structure; 3-D numerical simulations; Maxwell´s equations; disk-loaded waveguide structure; electric-wall boundary conditions; electromagnetic simulations; electron beam interactions; extended slow-wave structures; fast end-to-end simulation; global eigenmodes; individual cavities; large-signal simulation code; local eigenmodes; magnetic-wall boundary conditions; reduced representation; Apertures; Boundary conditions; Circuit simulation; Computational modeling; Convergence; Electromagnetic coupling; Electromagnetic waveguides; Equivalent circuits; Maxwell equations; Transmission line matrix methods;
Conference_Titel :
Vacuum Electronics Conference, 2004. IVEC 2004. Fifth IEEE International
Print_ISBN :
0-7803-8261-7
DOI :
10.1109/IVELEC.2004.1316342
