Cluster-ion bombardment studies to reveal the amorphization mode in strained Si_0.8Ge_0.2 Academic Article

abstract

• Radiation damage caused by cluster ions of different sizes is predicted to be distinctly different if materials follow disparate phenomenological models of amorphization, namely overlap and direct amorphization methods. Determination of an amorphization model for a crystalline solid can be accomplished based on its radiation response to cluster sizes of bombarding ions. In the present study, we use this approach and apply it to study radiation damage in Si 0.8Ge 0.2 caused by Ag n clusters with the number of atoms in a cluster, n, taking values from 1 to 4. The displacements measured by using channeling Rutherford backscattering spectrometry show size-enhanced damage accumulation, which is in good agreement with the atomistic detail obtained by molecular dynamics simulations. Our studies suggest that strained SiGe, a material known to have poor radiation tolerance, follows the overlap model rather than the direct amorphization model. 2012 Copyright Taylor and Francis Group, LLC.

authors

• Cagin, Tahir
• Shao, Lin

published proceedings

• PHILOSOPHICAL MAGAZINE LETTERS

author list (cited authors)

• Martin, M. S., Chen, D. i., Thompson, P. E., Wang, X., Chu, W., Cagin, T., & Shao, L.

citation count

• 0

complete list of authors

• Martin, Michael S||Chen, Di||Thompson, Phillip E||Wang, Xuemei||Chu, Wei-Kan||Cagin, Tahir||Shao, Lin

publication date

• November 2012

publisher

• Taylor & Francis  Publisher

keywords

• Amorphization
• Cluster-ion Bombardment
• Defects In Solids
• Radiation Effects
• Semiconductors
• Strained SiGe

Digital Object Identifier (DOI)

• 10.1080/09500839.2012.705034

start page

• 625

end page

• 632

volume

• 92

issue

• 11

URL

• http://dx.doi.org/10.1080/09500839.2012.705034