Linear Energy Transfer of Heavy Ions in Silicon

Author

Javanainen, A. ; Malkiewicz, T. ; Perkowski, J. ; Trzaska, W.H. ; Virtanen, A. ; Berger, G. ; Hajdas, W. ; Harboe-Sorensen, R. ; Kettunen, H. ; Lyapin, V. ; Mutterer, M. ; Pirojenko, A. ; Riihimäki, I. ; Sajavaara, T. ; Tyurin, G. ; Whitlow, H.J.

Author_Institution

Jyvaskyla Univ., Jyvaskyla

Volume

54

Issue

4

fYear

2007

Firstpage

1158

Lastpage

1162

Abstract

Researchers performing radiation testing on electronic components often rely on semi-empirical prediction codes for determining the linear energy transfer (LET) (or electronic stopping force) of ions, without paying much attention to their reliability. However, it is seen that estimations calculated with different codes can have over 10% discrepancies, especially in the case of heavy ions with higher LET (e.g., xenon). As a consequence of the modern component fabrication techniques this has become an important issue when studying the radiation durability of electronics. In order to clarify this inconsistency, LET measurements for ¹³¹Xe and ⁸²Kr in silicon have been undertaken and obtained results are presented, discussed and compared with earlier predicted data.

Keywords

elemental semiconductors; ion beam effects; semiconductor devices; silicon; ¹³¹Xe beam irradiation; ⁸²Kr beam irradiation; Si - Element; electronic components; electronic stopping force; linear energy transfer; radiation testing; silicon electronics; Electronic components; Electronic equipment testing; Energy exchange; Fabrication; Java; Nuclear physics; Performance evaluation; Silicon; Space technology; Xenon; Electronic stopping force; krypton; linear energy transfer; silicon; time-of-flight; xenon;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2007.895121

Filename

4291738