DocumentCode
790570
Title
On the Computation of Secondary Electron Emission Models
Author
Clerc, Sébastien ; Dennison, John R. ; Hoffmann, Ryan ; Abbott, Jonathan
Author_Institution
Res. Dept., Alcatel Alenia Space, Cannes
Volume
34
Issue
5
fYear
2006
Firstpage
2219
Lastpage
2225
Abstract
Secondary electron emission is a critical contributor to the charge particle current balance in spacecraft charging. Spacecraft charging simulation codes use a parameterized expression for the secondary electron (SE) yield delta(Eo) as a function of the incident electron energy Eo. Simple three-step physics models of the electron penetration, transport, and emission from a solid are typically expressed in terms of the incident electron penetration depth at normal incidence R(Eo) and the mean free path of the SE lambda. In this paper, the authors recall classical models for the range R(Eo): a power law expression of the form b1Eo n1 and a more general empirical double power law R(Eo)=b1Eo n1+b2E o n2. In most models, the yield is the result of an integral along the path length of incident electrons. An improved fourth-order numerical method to compute this integral is presented and compared to the standard second-order method. A critical step in accurately characterizing a particular spacecraft material is the determination of the model parameters in terms of the measured electron yield data. The fitting procedures and range models are applied to several measured data sets to compare their effectiveness in modeling the function delta(Eo) over the full range of energy of incident particles
Keywords
aerospace materials; secondary electron emission; space vehicles; spacecraft charging; double power law; electron penetration; electron transport; electron yield; fourth-order numerical method; mean free path; secondary electron emission models; spacecraft charging simulation codes; spacecraft material; Aircraft manufacture; Computational modeling; Dielectric materials; Dielectric measurements; Electron emission; Particle measurements; Physics; Solid modeling; Space vehicles; Surface charging; Electron emission; secondary electron (SE) yield; surface charging;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2006.883379
Filename
1710099
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