Title :
A new approach to detect small-sized oxygen precipitates in Si wafers using reactive ion etching
Author :
Nakashima, Kenji ; Yoshida, Tomoyuki ; Watanabe, Yukihiko ; Mitsushima, Yasuichi
Author_Institution :
Toyota Central R&D Labs. Inc., Aichi, Japan
fDate :
30 March-4 April 2003
Abstract :
A new technique to detect oxygen precipitates in Si wafers using highly selective reactive ion etching is presented. In this technique, oxygen precipitates in Si wafers are detected as Si cones which have an oxygen precipitate at the tip of each cone. It was demonstrated that this technique was capable of detecting nanometer-sized oxygen precipitates and estimating their size and morphology. In addition, the technique was found to evaluate the depth distribution of the precipitates with an accuracy of 0.3 μm. The detectable size limit and depth resolution was found to be about ten times higher than those of LST. Moreover, relationships of the size or density of oxygen precipitates to OSF formation and GOI characteristics were demonstrated using this technique.
Keywords :
annealing; elemental semiconductors; failure analysis; optical microscopy; oxygen; precipitation; scanning electron microscopy; semiconductor device reliability; silicon; sputter etching; stacking faults; transmission electron microscopy; GOI characteristics; OSF formation; SEM; Si cones; Si wafers; Si:O; TEM; annealing time dependence; depth resolution; detectable size limit; gate oxide integrity; highly selective reactive ion etching; nanometer-sized oxygen precipitates; optical microscopy; oxidation-induced stacking faults; precipitate depth distribution; precipitate morphology; precipitate size; reliability; small-sized oxygen precipitates; Degradation; Electric variables; Etching; Helium; Leakage current; Maintenance; Morphology; Oxygen; Research and development; Stacking;
Conference_Titel :
Reliability Physics Symposium Proceedings, 2003. 41st Annual. 2003 IEEE International
Print_ISBN :
0-7803-7649-8
DOI :
10.1109/RELPHY.2003.1197808
