Modeling emission processes in the Finite-Element MICHELLE gun & collector simulation code

Author

Petillo, J. ; Panagos, D. ; Ovtchinnikov, S. ; Burke, A. ; Kostas, C. ; Jensen, K. ; Levush, B. ; Held, Ben ; DeFord, J. ; Nelson, E.

Author_Institution

Sci. Applic. Int´´l Corp., Billerica, MA, USA

fYear

2010

fDate

20-24 June 2010

Firstpage

1

Lastpage

1

Abstract

Summary form only given. The MICHELLE code is a Finite-Element Electrostatic Particle in Cell code for application to 2D and 3D particle beam formation, transport, and collection. Although its initial development focus had been for DC electron guns and depressed collectors, other applications such as RF electron guns, ion thrusters, photocathodes, etc. have become a recent focus. The MICHELLE code´s ability to manage large mesh sizes and large particle counts in complex geometries requiring the resolution of disparate spatial scales in 2D and 3D on desktop computers has allowed it to be applied to devices that could not have been readily modeled in recent years.

Keywords

finite element analysis; plasma simulation; plasma transport processes; 3D particle beam formation; 3D particle beam transport; DC electron gun; MICHELLE code; RF electron gun; collector simulation code; complex geometry; desktop computer; emission process; finite-element electrostatic particle-in-cell code; large mesh size; large particle count; Application software; Cathodes; Computational geometry; Electron guns; Electrostatics; Finite element methods; Particle beams; Radio frequency; Solid modeling; Spatial resolution;

fLanguage

English

Publisher

ieee

Conference_Titel

Plasma Science, 2010 Abstracts IEEE International Conference on

Conference_Location

Norfolk, VA

ISSN

0730-9244

Print_ISBN

978-1-4244-5474-7

Electronic_ISBN

0730-9244

Type

conf

DOI

10.1109/PLASMA.2010.5534434

Filename

5534434