Title :
Iron contamination in silicon wafers measured with the pulsed MOS capacitor generation lifetime technique
Author :
Tan, Suat-Eng ; Schroder, Dieter K. ; Kohno, Motohiro ; Miyazaki, Morimasa
Author_Institution :
Dept. of Electr. Eng., Arizona State Univ., Tempe, AZ, USA
fDate :
12/1/2000 12:00:00 AM
Abstract :
The pulsed MOS capacitor generation lifetime technique is used to determine the iron density in boron-doped silicon wafers. Effective generation lifetimes (τg,eff) are extracted from the Zerbst plots obtained from the measured capacitance-time (C-t) data. Upon thermal heating at 200°C for 5 minutes and quenching to 23°C, iron-boron (Fe-B) pairs dissociate into interstitial iron (Fei) and substitutional boron (B). The post-heated τg,eff decreases immediately after heating. As time elapses (pairing time tp increases) after Fe-B dissociation, Tg,eff increases because Fei reforms into Fe-B pairs. It takes about four times the time constant (i.e., tp≈4τ) of Fe-B pairing reaction before the post-heated τg,eff recovers to the pre-heated τg,eff. An expression is developed to determine the iron density. The iron density obtained from this expression shows good agreement with that measured by deep-level transient spectroscopy.
Keywords :
MOS capacitors; boron; capacitance; carrier lifetime; elemental semiconductors; heat treatment; impurity distribution; iron; quenching (thermal); silicon; 200 C; 23 C; 5 min; Fe-B dissociation; Fe-B pairing reaction; Si:B,Fe; Zerbst plots; boron-doped silicon wafers; capacitance-time data; generation lifetimes; interstitial iron; iron contamination; iron density; pulsed MOS capacitor generation lifetime technique; quenching; silicon wafers; substitutional boron; thermal heating; Capacitance measurement; Contamination; Data mining; Heating; Iron; MOS capacitors; Pollution measurement; Pulse generation; Pulse measurements; Silicon;
Journal_Title :
Electron Devices, IEEE Transactions on
