Extrinsic dislocation loop behavior in silicon with a thermally grown silicon nitride film
作者:
S. B. Herner,
V. Krishnamoorthy,
K. S. Jones,
T. K. Mogi,
M. O. Thompson,
H.-J. Gossmann,
期刊:
Journal of Applied Physics
(AIP Available online 1997)
卷期:
Volume 81,
issue 11
页码: 7175-7180
ISSN:0021-8979
年代: 1997
DOI:10.1063/1.365316
出版商: AIP
数据来源: AIP
摘要:
The effect of a thermally grown silicon nitride(SiNx)film on end-of-range extrinsic dislocation loops in a silicon substrate was investigated by transmission electron microscopy. A layer of extrinsic dislocation loops was formed by annealing a Si wafer amorphized by aGe+ion implant. A nitride film was grown on the Si by further annealing in ammonia(NH3)at 810 and 910 °C for 30–180 min. Wafers with a loop layer were also annealed in argon (Ar) at the same conditions as theNH3-annealed wafers to determine loop behavior in an inert environment. Samples annealed inNH3had a significant decrease in the net number of interstitials bound by the loops, while those annealed in Ar showed no change. The results are explained by a supersaturation of vacancies caused by the presence of the nitride film, resulting in loop dissolution. By integrating the measured vacancy flux over the distance from the nitride/Si interface to the loop layer, we extract an estimate for the relative supersaturation of vacancies at 910 °C,CV/CV*∼4,whereCVis the concentration of vacancies and the asterisk denotes equilibrium. We rule out interstitial undersaturation-induced loop dissolution based on loop stability with temperature and oxidation-enhanced loop growth calculations. A comparison with estimatedCV/CV*values from a previous report using the same processing equipment and parameters but monitoring the change in Sb diffusivity with nitridation shows excellent agreement. ©1997 American Institute of Physics.
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