High phosphorous doped germanium: Dopant diffusion and modeling

Author(s)

Cai, Yan; Bessette, Jonathan T.; Kimerling, Lionel C.; Michel, Jurgen; Camacho-Aguilera, Rodolfo Ernesto

Abstract

The in situ n-type doping of Ge thin films epitaxial grown on Si substrates is limited to 1 × 10[superscript 19] cm[superscript −3] by the phosphorous out-diffusion during growth at 600 °C. By studying the phosphorous diffusion in Ge with different background doping, we find that the diffusion coefficient is extrinsic and is enhanced 100 times in Ge doped at 1 × 10[superscript 19] cm[superscript −3] compared to intrinsic diffusivity. To achieve higher phosphorous concentration, delta-doped layers are used as a dopant source for phosphorous in-diffusion. We show that the doping level is a result of the competition between in-diffusion and dopant loss. The high diffusivity at high n-type carrier concentration leads to a uniform distribution of phosphorous in Ge with the concentration above 3 × 10[superscript 19] cm[superscript −3].

Date issued

2012-08

URI

http://hdl.handle.net/1721.1/79725

Department

MIT Materials Research Laboratory
Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Journal of Applied Physics

Publisher

American Institute of Physics (AIP)

Citation

Cai, Yan et al. “High Phosphorous Doped Germanium: Dopant Diffusion and Modeling.” Journal of Applied Physics 112.3 (2012): 034509. © 2012 American Institute of Physics

Version: Final published version

ISSN

00218979

1089-7550