Title :
Application of electron transport model for Internal Charging estimation
Author :
Nagesh, S.K. ; Rao, M. Nageswara ; Shastry, S.V.K. ; Danabalan, T.L. ; Reddy, R. Ramakrishna
Author_Institution :
ISRO Satellite Centre Bangalore, Bangalore, India
Abstract :
Spacecraft interaction with space plasma environment is a well known phenomenon. The high energy charged particles (mainly electrons) in the range of 100 keV and more interacts with dielectrics in a different way which eventually leads to a phenomenon known as Internal Charging or also called as Deep Dielectric Charging (DDC). To estimate the threat of Internal Charging, one of the major requirement is the estimation of electron transport through the spacecraft body to reach the dielectric inside the spacecraft. High energy electron transport is most generally evaluated with powerful transport codes such as Integrated TIGER Code series. This paper deals with the calculation of same by using electron range equations due to Tabata and then compares the results with Weber´s electron range equation.
Keywords :
electron transport theory; spacecraft charging; Weber electron range equation; deep dielectric charging; electron range equations; electron transport model; high energy charged particles; internal charging estimation; space plasma environment; spacecraft body; spacecraft interaction; Dielectrics; Electrons; Equations; Extraterrestrial phenomena; Orbital calculations; Plasma applications; Plasma transport processes; Solid modeling; Space charge; Space vehicles; Deep Dielectric Charging; Geo-synchronous Orbit; Internal Charging; Spacecraft Charging;
Conference_Titel :
Electromagnetic Interference & Compatibility, 2008. INCEMIC 2008. 10th International Conference on
Conference_Location :
Bangalore
Print_ISBN :
978-81-903575-1-7
