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An Electronic Stopping Power Model in Single-Crystal Silicon from a Few KeV to Several MeV

Published online by Cambridge University Press:  03 September 2012

S. J. Morris
Affiliation:
Mail Code R9950, The University of Texas at Austin, PRC-MER Bldg., Rm 2.608C, Austin, TX 78712
B. Obradovic
Affiliation:
Mail Code R9950, The University of Texas at Austin, PRC-MER Bldg., Rm 2.608C, Austin, TX 78712
S.-H. Yang
Affiliation:
Now with Texas Instruments, Dallas, TX.
A. F. Tasch
Affiliation:
Mail Code R9950, The University of Texas at Austin, PRC-MER Bldg., Rm 2.608C, Austin, TX 78712
L. Rubin
Affiliation:
Eaton Corporation, Semiconductor Equipment Division, 108 Cherry Hill Drive, Beverly, MA 01915
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Abstract

An electronic stopping power model for boron, arsenic, and phosphorus ion implantation into single-crystal Si is reported over the energy range from a few keV to several MeV, for both offand on-axis implant angles relative to the <100> crystallographic direction. Combined with previously developed models for damage accumulation, this model allows physically-based simulation of 3-D profiles over an extremely wide range of implant conditions. In particular, this allows modeling of MeV implants which are being used more and more frequently.

Type
Research Article
Copyright
Copyright © Materials Research Society 1997

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