Amorphous Inclusions in Irradiated Silicon and Their Effects on Material and Device Properties

Author

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

Author_Institution

Aerosp. Corp., Los Angeles, CA

Volume

55

Issue

6

fYear

2008

Firstpage

2992

Lastpage

2999

Abstract

Clustered damage plays an important role in determining the electronic properties of silicon irradiated with particles having a relatively high rate of nonionizing energy loss. This damage has generally been treated as being heavily defected crystal, but substantial evidence points to amorphization. The structure of radiation-produced amorphous regions in silicon is modeled here using atomistic techniques. Those regions consist of a phase distinct from the surrounding crystal, and models based on amorphous inclusions can explain the dominance of clusters in determining key electronic properties in irradiated bulk material and devices.

Keywords

amorphous semiconductors; radiation effects; silicon; amorphous inclusions; atomistic techniques; clustered damage; device properties; electronic properties; irradiated silicon; material properties; nonionizing energy loss; radiation produced amorphous regions; Amorphous materials; Atomic layer deposition; Atomic measurements; Crystalline materials; Energy loss; Production; Protons; Radiation effects; Silicon; Thermal degradation; Defect clusters; displacement damage; molecular dynamics; radiation effects; silicon;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2008.2006751

Filename

4723762