Displacement Damage Effects in Irradiated Semiconductor Devices

Author

Srour, J.R. ; Palko, J.W.

Author_Institution

Aerosp. Corp., Los Angeles, CA, USA

Volume

60

Issue

3

fYear

2013

fDate

41426

Firstpage

1740

Lastpage

1766

Abstract

A review of radiation-induced displacement damage effects in semiconductor devices is presented, with emphasis placed on silicon technology. The history of displacement damage studies is summarized, and damage production mechanisms are discussed. Properties of defect clusters and isolated defects are addressed. Displacement damage effects in materials and devices are considered, including effects produced in silicon particle detectors, visible imaging arrays, and solar cells. Additional topics examined include NIEL scaling, carrier concentration changes, random telegraph signals, radiation hardness assurance, and simulation methods for displacement damage. Areas needing further study are noted.

Keywords

carrier density; elemental semiconductors; radiation effects; silicon; silicon radiation detectors; NIEL scaling; Si; carrier concentration; defect clusters; irradiated semiconductor devices; radiation hardness assurance; radiation-induced displacement damage effects; random telegraph signals; silicon particle detectors; silicon technology; Atomic layer deposition; Neutrons; Photovoltaic cells; Protons; Silicon; Defect clusters; NIEL; defects; displacement damage; hardness assurance; particle detectors; radiation effects; random telegraph signals; semiconductors; silicon; simulation; solar cells; visible imaging arrays;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2013.2261316

Filename

6530755