3D electromagnetic plasma simulation using nonorthogonal unstructured grids

Author

Brandon, S. ; Larson, D.J. ; Madsen, N. ; Nielsen, D.E., Jr. ; Weidhaas, P.

Author_Institution

Lawrence Livermore Nat. Lab., Livermore, CA, USA

fYear

1993

fDate

7-9 June 1993

Firstpage

232

Abstract

Summary form only given. There is much current interest in developing plasma simulation techniques able to accurately model the geometrical complexity of laboratory plasma devices. The discrete surface integral (DSI) method for solving Maxwell´s equations in the time-domain presents an opportunity to achieve the desired geometrical realism. This method allows the use of general nonorthogonal mixed-polyhedral unstructured grids that are direct generalizations of the staggered-grid finite-difference method. The method is conservative in that it locally preserves divergence or charge. An effort has been made to include particles in the 3D electromagnetic field code DS13D.

Keywords

plasma simulation; 3D electromagnetic plasma simulation; DS13D; Maxwell´s equations; discrete surface integral method; geometrical complexity; geometrical realism; laboratory plasma devices; nonorthogonal mixed-polyhedral unstructured grids; nonorthogonal unstructured grids; plasma simulation techniques; staggered-grid finite-difference method; time-domain; Contracts; Electromagnetic modeling; Electromagnetic scattering; Electrons; Finite element methods; Laboratories; Maxwell equations; Plasma simulation; Solid modeling; Sulfur hexafluoride;

fLanguage

English

Publisher

ieee

Conference_Titel

Plasma Science, 1993. IEEE Conference Record - Abstracts., 1993 IEEE International Conference on

Conference_Location

Vancouver, BC, Canada

ISSN

0730-9244

Print_ISBN

0-7803-1360-7

Type

conf

DOI

10.1109/PLASMA.1993.593629

Filename

593629