English

Study Of Si-Ge Interdiffusion With a High Phosphorus Doping Concentration

Materials Science 2016-11-23 v1

Abstract

Si-Ge interdiffusion with a high phosphorus doping level was investigated by both experiments and modeling. Ge/Si1-xGex/Ge multi-layer structures with 0.75<x_Ge<1 , a mid-10^18 to low-10^19 cm-3 P doping and a dislocation density of 10^8 to 10^9 cm-2 range were studied. The P-doped sample shows an accelerated Si-Ge interdiffusivity, which is 2-8 times of that of the undoped sample. The doping dependence of the Si-Ge interdiffusion was modelled by a Fermi-enhancement factor. The results show that Si-Ge interdiffusion coefficient is proportional to n^2/n_i^2 for the conditions studied, which indicates that the interdiffusion in high Ge fraction range with n-type doping is dominated by V^(2-) defects. The Fermi-enhancement factor was shown to have a relatively weak dependence on the temperature and the Ge fraction. The results are relevant to structure and thermal processing condition design of n-type doped Ge/Si and Ge/SiGe based devices such as Ge/Si lasers.

Keywords

Cite

@article{arxiv.1608.01029,
  title  = {Study Of Si-Ge Interdiffusion With a High Phosphorus Doping Concentration},
  author = {Feiyang Cai and Dalaver H. Anjum and Xixiang Zhang and Guangrui and Xia},
  journal= {arXiv preprint arXiv:1608.01029},
  year   = {2016}
}
R2 v1 2026-06-22T15:10:38.782Z