DocumentCode
768622
Title
Proton-induced displacement damage distributions and extremes in silicon microvolumes charge injection device
Author
Marshall, Paul W. ; Dale, Cheryl J. ; Burke, Edward A.
Author_Institution
US Naval Res. Lab., Washington, DC, USA
Volume
37
Issue
6
fYear
1990
fDate
12/1/1990 12:00:00 AM
Firstpage
1776
Lastpage
1783
Abstract
An analytic approach for determining the pixel-to-pixel distribution of particle-induced damage and damage extremes in microvolumes representative of focal plane array pixel geometries is presented. Comparisons between predicted and measured dark current distributions in a silicon charge injection device (CID) show excellent agreement for 12- and 63-MeV proton-induced damage. The calculated and measured damage extremes are compared using extreme value statistical analysis. The calculations reveal how high-energy recoils from proton-induced nuclear reactions strongly influence the pixel-to-pixel variation in damage as well as the damage extremes. A comparison between Si and GaAs pixels with equal volumes and equal 12-MeV proton fluences indicates that both the average damage and its variance are significantly greater in GaAs
Keywords
CCD image sensors; proton effects; statistical analysis; 12 MeV; 63 MeV; GaAs; Si microvolumes; charge injection device; damage extremes; dark current distributions; displacement damage distributions; extreme value statistical analysis; focal plane array pixel geometries; high-energy recoils; pixel-to-pixel distribution; proton-induced damage; proton-induced nuclear reactions; Charge coupled devices; Charge measurement; Current measurement; Dark current; Gallium arsenide; Geometry; Laboratories; Protons; Sensor arrays; Silicon;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/23.101191
Filename
101191
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