Title :
Transient enhanced diffusion in low energy arsenic implanted silicon
Author :
Jones, Kevin S. ; Downey, Dan ; Miller, Holly ; Chow, Judy ; Chen, Jian ; Puga-Lambers, Maggie ; Moller, Kathryn ; Wright, Mike ; Heitman, Erica ; Glassberg, Josh ; Law, Mark ; Robertson, Lance ; Brindos, Rich
Author_Institution :
Dept. of Mater. Sci. & Eng., Florida Univ., Gainesville, FL, USA
Abstract :
As+ implanted Si has been investigated using a combination of SIMS, TEM and chemical mechanical polishing (CMP). As the energy decreases from 5 to 3 keV it is found that no extended defects form in the EOR region upon 750°C annealing or higher. It is also found that TED increases dramatically for both implant energies as the annealing temperature decreases from 1050°C to 700°C, with enhancements in diffusivity increasing from ~1 to >1000. TED is very similar independent of implant energy implying the extended defects in the end of range region are not the source of the interstitials. Using a careful CMP lapping experiment in combination with spectroscopic ellipsometry, it is shown that the formation of As interstitial clusters (AsICs) is the most likely reason for the lack of extended defects in the EOR region as well as the observed TED
Keywords :
annealing; arsenic; chemical mechanical polishing; diffusion; elemental semiconductors; ellipsometry; energy loss of particles; extended defects; interstitials; ion implantation; secondary ion mass spectra; semiconductor doping; silicon; transmission electron microscopy; 3 to 5 keV; 700 to 1050 C; As interstitial clusters; As+ implanted Si; CMP; CMP lapping; EOR region; SIMS; Si:As; TEM; annealing; annealing temperature; chemical mechanical polishing; diffusivity; end of range region; extended defects; interstitials; low energy arsenic implanted silicon; spectroscopic ellipsometry; transient enhanced diffusion; Amorphous materials; Annealing; Ellipsometry; Furnaces; Implants; Materials science and technology; Power engineering and energy; Silicon; Spectroscopy; Temperature;
Conference_Titel :
Ion Implantation Technology Proceedings, 1998 International Conference on
Conference_Location :
Kyoto
Print_ISBN :
0-7803-4538-X
DOI :
10.1109/IIT.1998.813799
